AU743333B2 - Piperidine compounds - Google Patents

Description

WO 98/17647 PCT/US97/18193 Piperidine Compounds Background of the Invention Field of the Invention .Neuraminidase (also known as sialidase, acylneuraminyl hydrolase, and EC 3.2.1.18) is an enzyme common among animals and a number of microorganisms. It is a glycohydrolase that cleaves terminal alphaketosidically linked sialic acids from glycoproteins, glycolipids and oligiosaccharides. Many of the microorganisms containing neuraminidase are pathogenic to man and other animals including fowl, horses, swine and seals.

Organisms having N-acetylneuraminidases include bacteria such as Vibrio cholerae, C. perfringens and Streptococcus sp. and viruses such as influenza virus, and parainfluenza virus.

Influenza neuraminidase has been implicated in the pathogenicity of influenza viruses. It is thought to help the elution of newly synthesized virons from infected cells and assist in the movement of the virus (through its hydrolase activity) through the mucus of the respiratory tract.

Brief Description of Related Art von Itzstein, L. M. et al., "Nature", 363(6428):418-423 (1993), discloses the rational design of sialidase-based inhibitors of influenza virus replication.

Colman, P. M. et al. International Patent Publication No. WO 92/06691 (Int. App. No. PCT/AU90/00501, publication date April 30, 1992), von Itzstein, L. M. et al., European Patent Publication No. 0 539 204 Al (EP App. No.

92309684.6, publication date April 28, 1993), and von Itzstein, L. M. et al.

International Publication No. WO 91/16320 (Int. App. No. PCT/AU91/00161, publication date October 31, 1991) disclose compounds that bind neuraminidase and are asserted to exhibited antiviral activity in vivo.

Umezawa, H. et al., Antibiotics" 27:963-969 (1974), discloses the isolation of Siastatin B. Nishimura, Y. et al., Am. Chem. Soc." 110:7249-7250 (1988), and "Bull. Chem. Soc. Jpn." 65:978-986 (1992), disclose the total synthesis of Siastatin B. Nishimura, Y. et al. Antibiotics" 45(10):1662-1668 (1992); 46(2): 300-309 (1993); 46(12):1883-1889 (1993); 47(1):101-107 (1994); and "Nat. Prod.

Lett." 39-44 (1992); as well as Japanese Patent Applications 92-287381 -1- WO 98/17647 PCT/US97/18193 (October 26, 1992); 90-201437 (July 31, 1990); 88-125020 (May 24, 1988) and 50046895 (April 25, 1975) disclose synthetic transformations of Siastatin B including certain dehydrosiastatin B analogs. Zbiral, E. et al., "Liebigs Ann.

Chem." 129-134 (1991), and von Itzstein, L. M. et al., "Carbohydrate Res." 244:181-185 (1993), disclose synthetic transformation of the hydroxy group at C4 of sialic acid to an amino group.

The above discussion of documents, acts, materials, devices, articles and the like is included in this specification solely for the purpose of providing a context for the present invention. It is not suggested or represented that any or all of these matters formed part of the prior art base or were common general knowledge in the field relevant to the present invention as it existed in Australia before the priority date of each claim of this application.

Aspects of the Invention i.

15 Selected embodiments of the invention satisfy one or more of the following aspects,: A principal aspect of the invention is inhibition of bacteria and viruses, in particular influenza viruses. In particular, an aspect is inhibition of -i ::glycolytic enzymes such as neuraminidase, in particular the selective inhibition of viral or bacterial neuraminidases.

An additional aspect of the invention is to provide neuraminidase inhibitors that have a retarded rate of urinary excretion, that enter into nasal or pulmonary secretions from the systemic circulation, that have sufficient S oral bioavailability to be therapeutically effective, that possess elevated potency, that exhibit clinically acceptable toxicity profiles and have other desirable pharmacologic properties.

Another aspect is to provide improved and less costly methods for synthesis of neuraminidase inhibitors.

A still further aspect is to provide improved methods for administration of known and novel neuraminidase inhibitors.

An additional aspect is to provide compositions useful in preparing polymers, surfactants or immunogens and for use in other industrial processes and articles.

These and other aspects will be readily apparent to the ordinary artisan from consideration of the invention as a whole.

2 2A Summary of the Invention Compounds, or compositions having formula (IX) are provided herein: J2 J2 J2 G, 2 a WO 98/17647 WO 9817647PCTIUS97/18193 wherein El is -(CRiR1)miWi; Gi is N3, -CN, 0OH, -OR6a, -N02, or -(CR1R1)m1W2; Ti is -NRiW 3 or a heterocycle; Jha are independently R1, Br, Cl, F, 1, CN, N02 or N3; J2 and J2a are independently H or Ri; Ri is independently H or alkyl of 1 to 12 carbon atoms; R2 is independently R3 or R4 wherein each R4 is independently substituted with 0 to 3 R3 groups; R3 is independently F, Cl, Br, I, -CN, N 3

-NO

2

-OR

6 a, -OR1, -N(Rl) 2 -N(R1)(R6b), -N(R6b)2, -SR 1

-SR

6 a, -S(O)RI, -S(O) 2 Rl, -S(O)OR1, -S(O)OR 6 a, -S(0) 2 0Rl, -S(0) 2

OR

6 a, -C(O)0R 1

-C(O)R

6

-C(O)OR

6 a, 0OC(O)RI, -N(R6b)(C(O)Rj), -N(Rl)(C(O)0RI), -N(R6b)(C(O)ORj), -C(O)N(Rl) 2 -C(O)N(R6b)(Rl), -C(O)N(R6b)2, -C(NR 1 )(N(Rl) 2 -C(N(R6b))(N(Rl) 2 -C(N(Rj))(N(Rj)(R 6 -C(N(R6b))(N(RI -C(N(Rl))(N(R 6 b) 2 -C(N(R6b))(N(R 6 b) 2 -N(Rl)C(N(Rl)) (N(Rl) 2 -N(Rj)C(N(Rj))(N(Rj)(R 6 -N(R1)C(N(R 6 b))(N(Rl -N(R6b)C(N(Rl))(N(Rl) 2 -N(R6b)C(N(R6b))(N(Rj) 2 20-N(R1)C(N(R))(Nj(R 6 -N(R)C(N(R6b))(N(Rj)(R 6 -N(Rl)C(N(Rl))(N(R 6 b) 2 -N(R1b)C(N(R6b))(N(RjR 6 -N(R6b)C(N(Rjb))(N(R 6 b) 2

=N(R

1 b) orN(R6b); -NRbCNR)NR4) is, inepnenl alkyl) of1t o2crbo atosalenl f t 1 c Rb atos, orepnel alkyl of to 12 carbon atoms ley o o1 bo atoiso ndepnenly of whe 1crin ahom ssbtttdwt o3R idpnetyR hri ahR ssbtttdwt o3R gruis idpnetyakln f1t 2cro tmaknln f2t 12aro atos, orepnel alkylene of -to12 carbon atoms, ny oyne of hich 12arn atkenlsn or alkynylene is su2abttue ith 0-3 R3e goups;ic klee Ralis ndeenerantl o nethr or essttterit -foRn group; 30R6b is independently Ho an rtein grou etrforamino gouhersiu;o carboxyl-containing compound; R6c is independently H or the residue of an amino-containing compound; Wi is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is a group comprising a basic heteroatom or a protected basic WO 98/1 7647 PTU9/89 PCTfUS97/18193 heteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R 5 -C(O)W5, -S02R5, or -S02W5; is carbocycle or heterocycle wherein W5 is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b)(N(R6b)2), -C(NR6b)(N(H)(R6b)), -C(S)N(R6b)2, or -C(O)R2; and each ml is independently an integer from 0 to 2; provided, however, that compounds are excluded -wherein Jia is H, each J 2 is H, J 2 a is H and T 1 is and: El is -CO 2 H or -CO 2

CH

3 GI is -OBoc, and W6 is Boc; El is -CO 2 H or -CO 2

CH

3 G1 is -OH, and W6 is H;.

El is -CO 2 H, -CO 2

CH

3 or -CO2Bn

G

1 is -OH, and W6 is Boc; El is -CONH 2

G

1 is -OH, and W6 is Boc or H; El is -CO 2 H or -CO 2

CH

3 Giis OH, and W6 is Bn; or El is -CO 2 H or -CO 2

CH

3

G

1 is -OH, and

W

6 is -CH 2

CH(OH)CH

2

(OH);

wherein Bn is benzyl and Boc is -CO 2

C(CH

3 3 and the salts, solvates, resolved enantiomers and purified diastereomers thereof.

WO 98/17647 WO 9817647PCT[US97/18193 In another embodiment, compounds, or compositions having formula are provided herein: ,Z2 Z- N J a

X

J

2 Ji wherein one Zj is W 6 and the other Zj is Gj;

Z

2 is H or W 6 El is -(CRiRi)mi Wi; Gi is -OH, -OR6a, or -(CR1Rl)mlW2; Ti is -NRlW3 or a heterocycle; J1 and Jia are independently R1, Br, CI, F, 1, CN, N02 or N3; J2 is H or Ri; RI is independently H or alkyl of 1 to 12 carbon atoms; R2 is independently R3 or R4 wherein each R4 is independently substituted with 0 to 3 R3 groups; R3 is independently F, Cl, Br, 1, -CN, N 3

-NO

2

-OR

6 a, 0OR 1 -N(Rl) 2 -N(Rl)(R 6 -N(R6b)2, -SR 1

-SR

6 a, -S(O)Rl, -S(O) 2 Rl, -S(O)0R 1

-S(O)OR

6 a, -S(0) 2 0R 1 -S(0) 2

OR

6 a, -C(O)OR1, -C (O)R 6 c, -C(O)OR 6 a, 0OC(O)RI,

-N(R

1 -N(Rj)(C(O)0R 1 -N(R6b)(C(O)ORj),

-C(O)N(R

1 2

-C(O)N(R

6 -C(O)N(R6b) 2 -C(NRl)(N(Rl) 2 -C(N(R6b))(N(Rl) 2 -C(N(Rj))(N(R 1

-C(N(R

6 (R6b)), -C(N(Rl))(N(R 6 b) 2 -C(N(R6b))(N(R 6 b) 2

-N(R

1

)C(N(R

1 (N(Rj) 2 -N(Rj)C(N(R 1 1 -N(Rj)C(N(R 6 b))(N(Rl -N(R6b)C(N(Rl))(N(Rj) 2 -N(R6b)C(N(R 6 b))(N(Rl) 2 -N(R6b)C(N(Rj))(N(Rj)(R 6 -N(R1)C(N(R 6 6 -N(Rj)C(N(Rj))(N(R 6 b) 2 -N(R6b)C(N(R 6 (R6b)), -N(R6b)C(N(Rj))(N(R 6 b) 2 -N(R1)C(N(R 6 (N(R6b) 2 -N(R6b)C(N(R6b))(N(R 6 b) 2 =N(Rj) or =N(R6b); R4 is independently alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms; R5 is independently R4 wherein each R4 is substituted with 0 to 3 R3 groups; is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon atoms any one of which WO 98/17647 PCT/US97/18193 alkylene, alkenylene or alkynylene is substituted with 0-3 R3 groups; R6a is independently H or an ether- or ester-forming group; R6b is independently H, a protecting group for amino or the residue of a carboxyl-containing compound; R6c is independently H or the residue of an amino-containing compound; W1 is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is H or a group comprising a basic heteroatom or a protected basic heteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R5, -C(O)W5, -SO2R5, or -S02W5; is carbocycle or heterocycle wherein W5 is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b)(N(R6b)2), -C(NR6b)(N(H)(R6b)), -C(S)N(R6b)2, or -C(O)R2; each ml is independently an integer from 0 to 2; and the salts, solvates, resolved enantiomers and purified diastereomers thereof.

In another embodiment of the invention a compound or composition of the invention is provided that further comprises a pharmaceuticallyacceptable carrier.

In another embodiment of the invention the activity of neuraminidase is inhibited by a method comprising the step of treating a sample suspected of containing neuraminidase with a compound or composition of the invention.

Another embodiment of the invention provides a method for inhibiting the activity of neuraminidase comprising the step of contacting a sample suspected of containing neuraminidase with the composition embodiments of the invention.

Detailed Description Compositions of the Invention.

The compounds of this invention exclude compounds heretofore known. However, as will be further apparent below, in other embodiments, it is within the invention to use for antiviral purposes known compounds heretofore only produced and used as intermediates in the preparation of -6- WO 98/17647 PCT/US97/18193 antiviral compounds. With respect to the United States, the compounds or compositions herein exclude compounds that are anticipated under 35 USC §102 or obvious under 35 USC §103. In particular, the claims herein shall be construed as excluding the compounds which are anticipated by or not possessing novelty over WO 96/26933 (September 6, 1996); Nishimura, Y. et al., Am. Chem. Soc." 110:7249-7250 (1988); and "Bull. Chem. Soc. Jpn." 65:978-986 (1992), disclose the total synthesis of Siastatin B. Nishimura, Y. et al., Antibiotics" 45(10):1662-1668 (1992); 46(2): 300-309 (1993); 46(12):1883-1889 (1993); 47(1):101-107 (1994); "Nat. Prod. Lett." 1(1):39-44 (1992); and Japanese Patent Applications 92-287381 (October 26, 1992); 90-201437 (July 31, 1990); 88- 125020 (May 24, 1988) and 50046895 (April 25, 1975).

In a further embodiment, the compounds of this invention are those in which W6 is not -CH20H, -CH20Ac, or -CH20CH2Ph.

In a further embodiment, the compounds of this invention are those in which El is not -CH20H, -CH20TMS, or -CHO.

In a further embodiment, the compounds of this invention are those in which W6 is not polyhydroxyalkane, especially -CH(OH)CH(OH)CH 2 0H. In a further embodiment, W6 is a branched chain group R5 as described below or a carbocycle which is substituted with at least one group Whenever a compound described herein is substituted with more than one of the same designated group, "RI" or "R6a", then it will be understood that the groups may be the same or different, each group is independeitly selected.

"Heterocycle" as used herein includes by way of example and not .limitation these heterocycles described in Paquette, Leo "Principles of Modern Heterocyclic Chemistry" Benjamin, New York, 1968), particularly Chapters 1, 3, 4, 6, 7, and 9; "The Chemistry of Heterocyclic Compounds, A series of Monographs" (John Wiley Sons, New York, 1950 to present), in particular Volumes 13, 14, 16, 19, and 28; and Am. Chem. Soc.", 82:5566 (1960).

Examples of heterocycles include by way of example and not limitation pyridyl, thiazolyl, tetrahydrothiophenyl, sulfur oxidized tetrahydrothiophenyl, pyrimidinyl, furanyl, thienyl, pyrrolyl, pyrazolyl, imidazolyl, tetrazolyl, benzofuranyl, thianaphthalenyl, indolyl, indolenyl, quinolinyl, isoquinolinyl, benzimidazolyl, piperidinyl, 4-piperidonyl, pyrrolidinyl, 2-pyrrolidonyl, pyrrolinyl, tetrahydrofuranyl, tetrahydroquinolinyl, tetrahydroisoquinolinyl, decahydroquinolinyl, octahydroisoquinolinyl, azocinyl, triazinyl, 6H-1,2,5- WO 98/1 7647 PCTIUS97/18193 thiadiazinyl, 2H,6H-1,5,2-dithiazinyl, thienyl, thianthrenyl, pyranyl, isobenzofuranyl, chromenyl, xanthenyl, phenoxathiinyl, 2H-pyrrolyl, isothiazolyl, isoxazolyl, pyrazinyl, pyridazinyl, indolizinyl, isoindolyl, 3Hindolyl, 1H-indazoly, purinyl, 4H-quinolizinyl, phthalazinyl, naphthyridinyl, quinoxalinyl, quinazolinyl, cinnolinyl, pteridinyl, 4aH-carbazolyl, carbazolyl, J-carbolinyl, phenanthridinyl, acridinyl, pyrimidinyl, phenanthrolinyl, phenazinyl, phenothiazinyl, furazanyl, phenoxazinyl, isochromanyl, chromanyl, imidazolidmnyl, imidazolinyl, pyrazolidinyl, pyrazolinyl, piperazinyl, indolinyl, isoindolinyl, quinuclidinyl, morpholinyl, oxazolidinyl, benzotriazolyl, benzisoxazolyl, oxindolyl, benzoxazolinyl, and isatinoyl.

By way of example and not limitation, carbon bonded heterocycles are bonded at position 2, 3, 4, 5, or 6 of a pyridine, position 3, 4, 5, or 6 of a pyridazine, position 2, 4, 5, or 6 of a pyrimidine, position 2, 3, 5, or 6 of a pyrazine, position 2, 3, 4, or 5 of a furan, tetrahydrofuran, thiofuran, thiophene, pyrrole or tetrahydropyrrole, position 2, 4, or 5 of an oxazole, imidazole or thiazole, position 3, 4, or 5 of an isoxazole, pyrazole, or isothiazole, position 2 or 3 of an aziridine, position 2, 3, or 4 of an azetidine, position 2, 3, 4, 5, 6, 7, or 8 of a quinoline or position 1, 3, 4, 5, 6, 7, or 8 of an isoquinoline. Still more typically, carbon bonded heterocycles include 2pyridyl, 3-pyridyl, 4-pyridyl, 5-pyridyl, 6-pyridyl, 3-pyridazinyl, 4-pyridazinyl, pyridazinyl, 6-pytidazinyl, 2-pyrimidinyl, 4-pyrimidinyl, 5-pyrimidinyl, 6pyrimidinyl, 2-pyrazinyl, 3-pyrazinyl, 5-pyrazinyl, 6-pyrazinyl, 2-thiazolyl, 4thiazolyl, or By way of example and not limitation, nitrogen bonded heterocycles are bonded at position 1 of an aziridine, azetidine, pyrrole, pyrrolidine, 2pyrroline, 3-pyrroline, imidazole, imidazolidine, 2-imidazoline, 3imidazoline, pyrazole, pyrazolmne, 2-pyrazoline, 3-pyrazoline, piperidine, pip'erazine, indole, indoline, 1H-indazole, position 2 of a isoindole, or isoindoline, position 4 of a morpholine, and position 9 of a carbazole, or carboline. Still more typically, nitrogen bonded heterocycles include 1-aziridyl, 1-'azetedyl, 1-pyrrolyl, 1-imidazolyl, 1-pyrazolyl, and 1-piperidinyl.

"Alkyl" as used herein, unless stated to the contrary, is C1-C12 hydrocarbon containing normal, secondary, tertiary or cyclic carbon atoms.

Examples are methyl (Me, ethyl (Et, -CH2CH3), 1-propyl (n-Pr, n-propyl, -CH2CH2CH3), 2-propyl (i-Pr, 1-propyl, -CH(CH3) 2 1-butyl (n-Bu, n-butyl, -CH2CH2CH2CH 3 2-methyl-1-propyl (i-Bu, i-butyl, -CH2CH(CH3)2), 2-butyl (a-Bu, s-butyl, -CH(CH3)CH2CH 3 2 -methyl-2-propyI (t-Bu, t-butyl, WO 98/17647 WO 9817647PCTIUS97/18193 -C(CH3)3), 1-pentyl (n-pentyl, -CH2CH2CH2CH2CH 3 2-pentyl (-CH(CH3)CH2CH2CH 3 3-pentyl (-CH(CH2CH3)2), 2-methyl-2-butyl (-C(CH3)2CH2CH 3 3-methyl-2-butyl (-CI-(CH3)CH(CH3) 2 3-methyl-1-butyl (-CH2CH2CH(CH 3 2 2-methyl-1-butyl (-CH2CH(CH3)CH2CH 3 1-hexyl (-CH2CH2CH2CH2CH 2

CH

3 2-hexyl (-CH(CH3)CH2CH2CH 2

CH

3 3-hexyl (-CH(CH2CH3)(CH2CH2CH 3 2-methyl-2-pentyl (-C(CH3)2CH2CH2CH3), 3-methyl-2-pentyl (-CH(CH3)CH(CH3)CH 2

CH

3 4-methyl-2-pentyl (-CH(CH3)CH2CH(CH 3 2 3-methyl-3-pentyl (-C(CH3)(CH2CH3)2), 2-methyl-3-pentyl (-CH(CH2CH3)CH(CH3) 2 2,3-dimethyl-2-butyl (-C(CH3)2CH(CH3)2), 3,3-dimethyl-2-butyl (-CH(CH3)C(CH3) 3 Examples of alkyl groups appear in Table 2 as groups 2-5, 7, 9, and 100-399.

The compositions of the invention comprise compounds of either formula: 72 J2J2 Z 1 -N J, Tjla Ti N Jla

G,

1 2 a 2 (IX) or

(X

In the typical embodiment, the compounds of Formula IX are chosen.

J1 and Jha are independently R1, Br, Cl, F, I, CN, N02 or N3, typically Ri or F, more typically H or F, more typically yet H.

J2 and J2a are independently H or R1, typically H.

One ZI of Formula X is W 6 and the other is G 1

Z

2 of Formula X is H or W 6 typically H.

El is -(CRiRi)mi Wi.

Typically, Ri is H or alkyl of 1 to 12 carbon atoms, usually H or an alkyl of 1 to 4 or 5 to 10 carbon atoms, still more typically, H or an alkyl of 1, 2, 3, 4, 6, 7, 8, 9, 10, 11, or 12 carbon atoms, more typically yet, H or an alkyl of 1 to 3 carbon atoms selected from methyl, ethyl, n-propyl, and i-propyl. Most typically Ri is H.

ml is an integer of 0 to 2, typically 0 or 1, most typically 0.

m2 is an integer of 0 to 1.

m3 is an integer- of 1 to 3.

Wi is a group comprising an acidic hydrogen, a potected acidic group or an R6c amide of the group comprising an acidic hydrogen which, within -9- WO 98/17647 PCTIUS97/18193 the context of the invention, means a group having a hydrogen atom that can be removed by a base yielding an anion or its corresponding salt or solvate.

The general principles of acidity and basicity of organic materials are well understood and are to be understood as defining W1. They will not be detailed here. However, a description appears in Streitwieser, A. and Heathcock, C. H. "Introduction to Organic Chemistry, Second Edition" (Macmillan, New York, 1981), pages 60-64. Generally, acidic groups of the invention have pK values less than that of water, usually less than pK typically less than pK 8, and frequently less than pK 6. They include tetrazoles and the acids of carbon, sulfur, phosphorous and nitrogen, typically the carboxylic, sulfuric, sulfonic, sulfinic, phosphoric and phosphonic acids, together with the R6c amides and R6b esters of those acids (R6c and R6b are defined below). Exemplary W1 are -CO2H, -CO2R6a, -OSO3H, -SO3H, -SO2H, -OPO3H2, -PO3(R6a)2, -PO3H2, -P03(H)(R6a), and -OP03(R6a)2. El typically is W1, and W1 typically is -CO2H, -CO2R6a, -C02R4 or C02R1, and most typically is C02R14 wherein R14 is normal or terminally secondary C1-C6 alkyl.

W1 may also be a protected acidic group, which, within the context of the invention means an acidic group as described above that has been protected by one of the groups commonly used in the art for such groups and are described below under R6a. More typically, protected W1 is -CO2R1,- SO3R1, -S(O)OR1, -P(O)(OR1)2, -C(O)NHSO2R4, or -SO2NHC(O)-R4, wherein R1 and R4 are defined above.

Most typically, El is selected from -C(O)O(CH2)bCH((CH2)cCH3)2 where b 0 to 4, c 0 to 4, and b c 1 to 4, or from the group of WO 98/17647 PCT/US97/18193 O 0

O

O c40

CH

3 OH O-CH3 O_ O

O

%O

C

C

H3 CH3,

CH

CH

3 0

CHH

3

SS'OH

H

O O I /OH O- CH3 N P N N OH C ,and N

O-CH

3 Y _N Exemplary El groups are listed in Tables 3a through 3b.

G1 of Formula X is -OH, OR6a, or -(CR1Rl)mlW2, G1 of Formula IX is -N3, -CN, -OH, OR6a, -N02 or -(CR1Rl)mlW2, wherein R1 and ml are defined above. Ordinarily, G1 of Formula (IX) is -(CR1R1)mlW2 and G1 of Formula is H.

W2 of Formula is H or a group comprising a basic heteroatom, a protected basic heteroatom or an R6b amide of the basic heteroatom. W2 of Formula (IX) is a group comprising a basic heteroatom, a protected basic heteroatom or an R6b amide of the basic heteroatom. W2 generally comprises a basic heteroatom, which, within the context of the invention means an atom :other than. carbon which is capable of protonation, typically by an acidic hydrogen having an acidity in the range described above for W1. The basic principles of basicity are described in Streitwieser and Heathcock (op. cit.) and provide meaning for the term basic heteroatom as will be understood by those ordinarily skilled in the art. Generally, the basic heteroatoms employed in the compounds of the invention have pK values for the corresponding protonated form that are in the range of values described above for W1. Basic heteroatoms include the heteroatoms common in organic compounds which have an un-shared, non-bonding, n-type, or the like, electron pair. By way of example and not limitation, typical basic heteroatoms include the oxygen, nitrogen, and sulfur atoms of groups such as alcohols, amines, amidines, 11- WO 98/17647 PCT/US97/18193 guanidines, sulfides, and the like, frequently, amines, amidines and guanidines. Ordinarily, W2 is amino or an amino alkyl (generally lower alkyl C1 to C6) group such as aminomethyl, aminoethyl or aminopropyl; an amidinyl, or an amidinoalkyl group such as amidinomethyl, amidinoethyl, or amidinopropyl; or guanidinyl, or a guanidinoalkyl group such as guanidinomethyl, guanidinoethyl, or guanidinopropyl (in each instance wherein the alkyl group serves to bridge the basic substituent to the carbocyclic ring). More typically, W2 is amino, amidino, guanidino, heterocycle, heterocycle substituted with 1 or 2 amino or guanidino groups (usually or an alkyl of 2 to 3 carbon atoms substituted with amino or guanidino, or such alkyl substituted with an amino and a second group selected.from the group consisting of hydroxy and amino. The heterocycles useful as W2 include typically N or S-containing 5 or 6 membered rings, wherein the ring contains 1 or 2 heteroatoms. Such heterocycles generally are substituted at ring carbon atoms. They may be saturated or unsaturated and may be linked to the core cyclohexene by lower alkyl (ml=1 or 2) or by -NR1-. Still more typically, W2 is -NHR1, -C(NH)(NH 2 -NR1-C(NR1)(NR1R 3

-NH-C(NH)(NHR

3

-NH-

C(NH)(NHR

1

-NH-C(NH)NH

2 -CH(CH2NHR1)(CH2OH), -CH(CH2NHR1)(CH2NHR1), -CH(NHR1)-(CR1R1)m2-CH(NHR1)R1, -CH(OH)-(CR1R1)m2-CH(NHR1)R1, or -CH(NHR1)-(CRR1 )m2-CH(OH)R1, -(CRIR1)m2-S-C(NH)NH2, -N=C(NHR1)(R 3 -N=C(SR1)N(R1)2, -N(R1)C(NH)N(R1)C=N, or -N=C(NHR1)(R1); wherein each m2 is ordinarily 0, and ordinarily R1 is H and R3 is C(O)N(R1)2.

W2 optionally is a protected basic heteroatom which within the context of the invention means a basic heteroatom as described above that has been protected by R6b such as one of the groups common in the art. Such groups are described in detail in Greene (op. cit.) as set forth below. Such groups include by way of example and not limitation, amides, carbamates, amino acetals, imines, enamines, N-alkyl or N-aryl phosphinyls, N-alkyl or N-aryl sulfenyls or sulfonyls, N-alkyl or N-aryl silyls, thioethers, thioesters, disulfides, sulfenyls, and the like. In some embodiments, the protecting group R6b will be cleavable under physiological conditions, typically it will be cleavable in vivo where, for example, the basic heteroatom forms an amide with an organic acid or an amino acid such as a naturally occurring amino acid or a polypeptide as described below for the R6a group.

Typically G1 of Formula is H and G1 of Formula (IX) is selected from -12- WO 98/17647 PCTIUS97/18193 the group consisting of:

NH

2

H

N YNH

NH

2 1H 2

NH

2

NHH

NH

2

NH

2

NH

H

I;yN N /ZYN NH

NH

2 NY NH 2

SCH

3 H CH3

NH

2 i<NY NH 2

H

NHN

NH

2 CN/>

N

H

SN,CH

3

H

l< CH 3 CH3 N yNNH2

CH

3 H (CH 3

NHN

NH2

-Z

S

NH

2 HN Y N

H'NCN

H N

H

N

N< VCH 3

H

N~

N

N<

-CH

3

H

~N

NH

2 CH3 rCH3 N

N

N, COH 3 and Further exemplary Gi groups are listed in Table 4.

Ti is -NR1W3, -R3, -R5 or heterocycle. Typically Ti is -NRiW3 or -13- WO 98/17647 WO 9817647PCTIUS97/18 193 heterocycle. Generally Ti is selected from the group consisting of: 00 0

H

3 C 'KN FH 2 C AN>A H2 N HI I I HH'

H'

0 Exemplary Ti groups are listed in Table W3 is W4 or W5, wherein W4 is R5 or -C(O)R5, -C(O)W5, -SO2R5, or -SO2W5. Typically, W3 is -C(O)R5 or R2 is independently R3 or R4 as defined below, with the proviso that each R4 is independently substituted with 0 to 3 R3 groups; R3 is independently F, Cl, Br, I, -CN, N 3

-NO

2

-OR

6 a, -OR 1

-N(RI)

2 -N(Rj)(R 6 -N(R6b)2, -SR 1

-SR

6 a, -S(O)Rl, -S(O) 2 Rl, -S(O)OR 1

-S(O)OR

6 a, -S(0) 2 0Rl, -S(0) 2

OR

6 a, -C(O)0R 1

-C(O)R

6

-C(O)OR

6 a, 0OC(O)R 1 -N(R6b)(C(O)Rj),

-N(R

1 -N(R6b)(C(O)ORj), -C(O)N(Rl) 2

-C(O)N(R

6

-C(O)N(R

6 b) 2 -C(NRl)(N(Rl) 2 -C(N(R6b))(N(Rl) 2 -C(N(Rj))(N(R 1 -C(N(R6b))(N(Rl (N(R6b)2), -C(N(R6b))(N(R 6 b) 2

-N(R

1 )C(N(Ri))(N(Rl) 2 -N(-Rj)C(N(R 1 6

-N(R

1

)C(N(R

6

(N(R

1 -N(R6b)C(N(Rl))

(N(R

1 2 -N(R6b)C(N(R 6 b))(N(Rj) 2 -N(R6b)C(N(Rj))(N(RI)(R 6 -N(Rl)C(N(R 6

(N(RI)(R

6 -N(R1)C(N(Rl))(N(R 6 b) 2 -N(R6i,)C(N(R6b))(N(Rl)(R 6 -N(R6b)C(N(Rl))(N(R 6 b) 2 -N(R1)C(N(R 6 (N(R6b)2), -N(R6b)C(N(R6b))(N(R 6 b) 2 =N(R6b) or W5. Typically R3 is F, Cl,,-CN, N3, N02, -OR6a, -ORi, -N(R1)2, -N(R1)(R6b), -N(R6b)2, -SRi, -SR6a, -C(O)ORi, -C(O)R6c, -C(O)OR6a, 0OC(O)Ri, -NRiC(0)Ri, N(R6b)C(O)Ri, -C(O)N(Rl)2, -C(O)N(R6b)(Rj), -C(O)N(R6b)2, or More typical R3 groups comprising R6b include -C(O)N(R 6 b)2 or -C(0)N(R 6 More typically yet R3 is F, Cl, -CN, N3, -ORi, -N(R1)2, -SRi, -C(0)ORi, -OC(O)Ri, or More typically still, R3 is F, -ORj., -N(Ri)2, or In the context of the present application, denotes a double bonded oxygen atom (oxo), and =N(R6b) and denote the sulfur and nitrogen analogs.

R4 is alkyl of 1 to 12 carbon atoms, and alkynyl or alkenyl of 2 to 12 carbon atoms. The alkyl R4's are typically of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 14- WO 98/17647 WO 9817647PCT/US97/18193 carbon atoms and the alkenyl and alkynyl R4's are typically of 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 carbon atoms. R4 ordinarily is alkyl (as defined above). When R4 is alkenyl it is typically ethenyl (-CH=CH 2 1-prop-1-enyl (-CH=CHCH3), 1prop-2-enyl (-CH2CH=CH2), 2 -prop-1-enyl 1-but-1-enyl (-CH=CHCH2CH 3 1-but-2-enyl (-CH2CH=CHCH3), 1-but-3-enyl (-CH2CH2CH=CH2), 2-methyl-1-prop-1-enyl (-CH=C(CH3)2), 2-methyl-i-prop- 2-enyl (-CH2C(=CH2) 2-but-1-enyl (-C(=CH2)CH2CH 3 2-but-2-enyl (-C(CH3)=CHCH3), 2-but-3-enyl (-CH(CH3)CH=CH2), 1-pent-1-enyl (-C=CHCH2CH2CH 3 1-pent-2-enyl (-CHCH=CHCH2CH 3 1-pent-3-enyl (-CHCH2CH=CHCH 3 1-pent-4-enyl (-CHCH2CH2CH=CH 2 2-pent-1-enyl (-C(=CH2)CH2CH 2

CH

3 2-pent-2-enyl (-C(CH3)=CH2CH2CH 3 2-pent-3-enyl (-CH(CH3)CH=CHCH 3 2-pent-4-enyl (-CH(CH3)CH2CH=CH 2 or 3-methyl-ibut-2-enyl (-CH2CH=C(CH 3 2 More typically, R4 alkenyl groups are of 2, 3 or 4 carbon atoms. When R4 is alkynyl it is typically ethynyl 1-prop-iynyl 1-prop-2-ynyl (-CH2C-=CH), 1-but-1-ynyl (-C=_CCH2CH3), 1-but- 2-ynyl (-CH2C=_CCH3), 1-but-3-ynyl (-CH2CH2C=_CH), 2-but-3-ynyl (CH(CH3)C_=CH), 1-pent-1-ynyl (-C=_CCH2CH2CH 3 l-pent-2-ynyl (-CH2C=_CCH2CH 3 1-pent-3-ynyl (-CH2CH2C=-CCH3) or 1-pent-4-ynyl (-CH2CH2CH2CaCH). More typically, R4 alkynyl groups are of 2, 3 or 4 carbon atoms.

is R4, as defined above, or R4 substituted with 0 to 3 R3 groups.

Typically R5 is an alkyl of 1 to 4 carbon atoms substituted with 0 to 3 fluorine atoms.

is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12. carbon atoms, or alkynylene of 2-12 carbon atoms any one of which alkylene, alkenylene or alkynylene is substituted with 0-3 R3 groups. As defined above for R4, R~a's are of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 carbon atoms when alkylene and of 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 carbon atoms when alkenylene or alkynylene. Each of the typical R4 groups is a typical R5a. group with the proviso that one of the hydrogen atoms of the described R4 group is removed to form the open valence to a carbon atom through which the second bond to the R5a is-attached.

Ri4 is normal or terminally secondary Ci-C6 alkyl.

is a carbocycle or heterocycle, with the proviso that each W5 is independently substituted with 0 to 3 R2 groups. W5 carbocycles and Ti and heterocycles are stable chemical structures. Such structures are isolatable in measurable yield, with measurable purity, from reaction mixtures at WO 98/17647 PCT/US97/18193 temperatures from -78 0 C to 200 0 C. Each W5 is independently substituted with 0 to 3 R2 groups. Typically, T1 and W5 are a saturated, unsaturated or aromatic ring comprising a mono- or bicyclic carbocycle or heterocycle. More typically, T1 or W5 has 3 to 10 ring atoms, still more typically, 3 to 7 ring atoms, and ordinarily 3 to 6 ring atoms. The T1 and W5 rings are saturated when containing 3 ring atoms, saturated or monounsaturated when containing 4 ring atoms, saturated, or mono- or diunsaturated when containing 5 ring atoms, and saturated, mono- or diunsaturated, or aromatic when containing 6 ring atoms. Unsaturation of the W5 rings include internal and external unsaturation wherein the external incorporates a ring atom.

When W5 is carbocyclic, it is typically a 3 to 7 carbon monocycle or a 7 to 12 carbon atom bicycle. More typically, W5 monocyclic carbocycles have 3 to 6 ring atoms, still more typically 5 or 6 ring atoms. W5 bicyclic carbocycles typically have 7 to 12 ring atoms arranged as a bicyclo or [6,6] system, still more typically, 9 or 10 ring atoms arranged as a bicyclo or [6,6] system. Examples include cyclopropyl, cyclobutyl, cyclopentyl, 1-cyclopent-1enyl, 1-cyclopent-2-enyl, 1-cyclopent-3-enyl, cyclohexyl, 1-cyclohex-l-enyl, 1cyclohex-2-enyl, 1-cyclohex-3-enyl, phenyl, spiryl and naphthyl.

A T1 or W5 heterocycle is typically a monocycle having 3 to 7 ring members (2 to 6 carbon atoms and 1 to 3 heteroatoms selected from N, O, P, and S) or a bicycle having 7 to 10 ring members (4 to 9 carbon atoms and 1 to 3 heteroatoms selected from N, O, P, and More typically, T1 and heterocyclic monocycles have 3 to 6 ring atoms (2 to 5 carbon atoms and 1 to 2 heteroatoms selected from N, 0, and still more typically, 5 or 6 ring atoms (3 to 5 carbon atoms and 1 to 2 heteroatoms selected from N and T1 and heterocyclic bicycles have 7 to 10 ring atoms (6 to 9 carbon atoms and 1 to 2 heteroatoms selected from N, 0, and S) arranged as a bicyclo or system, still more typically, 9 to 10 ring atoms (8 to 9 carbon atoms and 1 to 2 hetero atoms selected from N and S) arranged as a bicyclo or system.

Typically T1 and W5 heterocycles are selected from pyridyl, pyridazinyl, pyrimidinyl, pyrazinyl, s-triazinyl, oxazolyl, imidazolyl, thiazolyl, isoxazolyl, pyrazolyl, isothiazolyl, furanyl, thiofuranyl, thienyl, or pyrrolyl.

More typically, the heterocycle of TI and W5 is bonded through a carbon atom or nitrogen atom thereof. Still more typically T1 heterocycles are bonded by a stable covalent bond through a nitrogen atom thereof to the cyclohexene ring of the compositions of the invention and W5 heterocycles are bonded by a stable covalent bond through a carbon or nitrogen atom thereof to the -16- WO 98/17647 PCTIUS97/18193 cyclohexene ring of the compositions of the invention. Stable covalent bonds are chemically stable structures as described above.

optionally is selected from the group consisting of: N

N

/N N N

H

S N NS ,and W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b)(N(R6b)2), -C(NR6b)(N(H)(R6b)), -C(S)N(R6b)2, or -C(O)R2, typically W6 is -R5, -W5, or -R5aW5; in some embodiments, W6 is R1, -CHR1W7, -CH(R1)aW7, -CH(W7)2, (where, W7 is monovalent a is 0 or 1, but is 0 when W7 is divalent) or -C(O)W 7 In some embodiments, W6 is -CHRjW7 or -C(O)W7, or W6 is -(CH2)mICH((CH2)m3R3)2; -(CH2)mlC((CH2)m3R3)3; -(CH2)m1CH((CH2)m3R~aW5)2; -(CH2)ml1CH( (CH2)m3R3) ((CH2)m3R5aW5); -(CH2)mlC((CH2)m3R3)2(CH2)m3R~aW5); -(CH2)mlC((CH2)m3R~aW5)3 or -(CH2)mlC((CH2)m3R3)((CH2)m3R~aW5) 2 and wherein m3 is an integer from 1 to 3.

W7 is R3 or R 5 but typically is alkyl of 1 to 12 carbons substituted with 0 to 13 R3 groups, the latter typically selected from the group consisting of -NR1(R6b), -N(R6b)2, -OR6a, or SR6a. More typically, W7 is -OR1 or an alkyl of 3 to 12 carbon atoms substituted with ORi.

In general, W6 is Ri-, -CHR1W7, 17- WO 98/17647 PCT/US97/18193 HO'

OH

OH

OH

H

3 C

H

3 0

CH

3

CH

3

CH

3 CH3

CH

3

CH

3 and Exemplary W6 groups are listed in Table 2.

An embodiment of the invention comprises a compound of the formula:

(XI)

/R

W6-N W3N N I I R, R 6 b

(XIII)

wherein each R1 and R6b are typically H, and W2 is typically selected from the group consisting of: 0 OH 0-

R

6 a 0o /0

S"OH

O

OH

OH

O- R 6 a

H

I

,a N ,and I V\

N

and W6 is one of: RJf R7

R

R7 R7 ,and R 7 wherein R7 is H, -CH3, -CH2CH3, -CH2CH2CH3, -OCH3, -OAc (-O-C(O)CH3), -OH, -NH2, or -SH, typically H, -CH3 or -CH2CH3. Another embodiment of the invention is directed toward compounds -18- WO 98/17647 WO 9817647PCTIUS97/18193 of formula (XX) or (XXa):

G

2 Ji

G

2 J2 J 2 a JEl (XX) J3E (XXa)

A

3 A 3

J

1 J-2 I J2 1 z 3 Z 3 wherein

A

3 is N, N(O) or N(S);

Z

3 is H, W 6 GI or R3a; El is -(CRiRi)mi Wi; Gi is N3, -CN, 0OH, -OR6a, -N02 or -(CRlR1)mlW2;

G

2 is GI or -X 1

W

6 Ti is -NRlW3 or a heterocycle; Ji is R1, Br, Cl, F, 1, CN, N02 or N3; J2 is H or Ri;

J

3 is J 1 if X 1 is a bond; and J 3 is J2 if X 1 is or -S02-; Ri is independently H or alkyl of 1 to 12 carbon atoms; R2 is independently R3 or R4 wherein each R4 is independently substituted with.0 to 3 R3 groups; R3 is independently F, Cl, Br, 1, -CN, N 3

-NO

2

-OR

6 a, -OR1, -N(Rl) 2 -N(Rj)(R 6 -N(R6b) 2

-SR

1

-SR

6 a, -S(O)Rl, -S(O) 2 Rl, -S(O)0RI, -S(O)OR 6 a, -S(0) 2 0Rl, -S(O) 2

OR

6 a, -C(O)0R 1

-C(O)R

6 c, -C(O)OR 6 a, 0OC(O)RI, -N(Rl) -N(R6b) -N(R 1 (C(O0Rj), -N(R6b) (C(O)ORj),

-C(O)N(R

1 -C(O)N(R6b) -C(O)N(R6b) 2 -C(NRI)(N(Rl) 2 -C(N(R6b))(N(R1) 2 -C(N(Rl))(N(Rj)(R 6 -C(N(R6b))(N(Rj)(R 6 (N(R6b)2), -C(N(R 6 (N(R6b)2), -N(Rj)C(N(R 1 2 -N(Ri)C(N(Ri))(N(Rj) -N(Rj)C(N(R 6 b))(N(Rl) 2 -N(R6b)C(N(Rl))(N(Rj) 2 -N(R6b)C(N(R 6 b))(N(Rl) 2 -N(R6b)C(N(Rl))(N(Rl)(R 6 -N(R1)C(N(R 6 b))(N(Rl)(R 6 -N(Rj)C(N(Rl))(N(R 6 b) 2 -N(R6b)C(N(R 6 b))(N(Rl)(R 6 -N(R6b)C(N(Rl))(N(R 6 b) 2 -N(Rj)C(N(R 6 b))(N(R 6 b) 2 -N(R6b)C(N(R~b))(N(R 6 b) 2 =N(R6b) or R3a is independently -CN, N 3 -NO, -NO 2

-OR

6 a, 0OR 1 -N(Rl) 2 -N(R1)(R 6 -N(R6b)2, -SR 1

-SR

6 a, -S(O)RI, -S(O) 2 Rl, -S(O)0R 1

-S(O)OR

6 a, 19- WO 98/17647 PCTIUS97/18193

-S(O)

2 0R 1

-S(O)

2

OR

6 a, -C(O)0R 1

-C(O)R

6 c, -C(O)OR 6 a, -OC(O)Rl,

-N(R

1 -N(R6b)(C(O)Rl),

-N(R

1 -N(R6b) (C(O)0Rj), -C(O)N(Rl) 2

-C(O)N(R

6 -C(O)N(R6b) 2 -C(NRI)(N(Rl) 2

-C(N(R

6 b))(N(Rl) 2

-C(N(R

1 1 -C(N(R6b))(N(Rl)(R 6

-C(N(RI))(N(R

6 b) 2 -C(N(R6b)) (N(R6b) 2 -N(Rl)C(N(R 1 2 -N(Rj)C(N(Ri))(N(R 1

-N(R

1 )C(N(R6b)) (N(Rl) 2 -N(R6b)C(N(Rl))(N(Rj) 2 -N(R6b)C(N(R 6 b))(N(Rj) 2 -N(R6b)C(N(Rl))(N(Rl -N(Rj)C(N(R 6 (N(Rl)(R 6 -N(Rj)C(N(Rl))(N(R 6 b) 2 -N(R6b)C (N(R6b))(N(RI -N(R6b)C(N(Rl))(N(R 6 b) 2 -N(Rl)C(N(R 6 b))(N(R 6 b) 2 or -N(R6b)C(N(R 6 b))(N(R 6 b) 2 R4 is independently alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms; is independently R4 wherein each R4 is substituted with 0 to 3 R3 groups; is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon atoms any one of which alkylene, alkenylene or alkynylene is substituted with 0-3 R3 groups; R6a is independently H or an ether- or ester-forming group; R6b is independently H, a protecting group for amino or the residue of a carboxyl-containing compound; R6c is independently H or the residue of an amino-containing compound; W1 is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is a group comprising a basic heteroatomn or a protected basic heteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R5, -C(O)W5, -S02R5, or -S02W5; W5 is carbocycle or heterocycle wherein WS is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b) (N(R6b)2), -C(NR6b)(N(H) (N(R6b)2), -C (S)N(R6b)2, or -C(O)R2; X1 is a bond,

-N(W

6 -N(NH2)-,

-N(N(H)(W

6 -N(H)N(W 6 or -S02-; and each mi is independently an integer from 0 to 2; WO 98/17647 PCT/US97/18193 provided, however, that compounds of formula (XX) are excluded wherein A 3 is N, each J1, J 2

J

2 a, and J 3 is H and T 1 is and: El is -CO 2 H or -CO 2

CH

3

G

2 is -OBoc, and

Z

3 is Boc; El is -CO 2 H or -CO 2

CH

3

G

2 is -OH, and

Z

3 is H; El is -CO 2 H, -CO 2

CH

3 or -CO2Bn

G

2 is -OH, and

Z

3 is Boc; El is -CONH 2

G

2 is -OH, and

Z

3 is Boc or H; El is -CO 2 H or -CO 2

CH

3

G

2 is OH, and

Z

3 is Bn; or El is -CO 2 H or -CO 2

CH

3

G

2 is -OH, and

Z

3 is -CH 2

CH(OH)CH

2

(OH);

wherein Bn is benzyl and Boc is -CO 2 C (CH 3 3 further excluded are compounds of the formula: (VII) or (VIII): J2 G, 2 a J wherein El is -(CRiRi )ml Wl; G1 is N3, -CN, OH, -OR6a, -N02, or -(CR1R1)mlW2; 21- WO 98/17647 WO 98/ 7647PCTIUS97/18193 Ti is -NRiW 3 a heterocycle, or is taken together with Gi to form a group having the structure

R

6 b-N Ui is -XlW 6 Ji and Jha are independently R1, Br, Cl, F, 1, CN, N02 or N3; J2 and J2a are independently H or Ri; Ri is independently H or alkyl of 1 to 12 carbon atoms; R2 is independently R3 or R4 wherein each R4 is independently substituted with 0 to 3 R3 groups; R3 is independently F, Cl, Br, 1, -CN, N 3

-NO

2

-OR

6 a, 0OR 1 -N(Rl) 2 -N(R1)(R6b), -N(R6b)2, -SRI, -SR 6 a, -S(O)Rl, -S(O) 2 RI, -S(O)0R 1

-S(O)OR

6 a, -S(0) 2 0Rl, -S(0) 2

OR

6 a, -C(O)0R 1

-C(O)R

6 c, -C(0)OR 6 a, 0OC(O)Rl, N(Rj)(C(O)Rj), -N(R6b)(C(O)Rl),

-N(R

1 (C(O)0Rj), -N(R6b) (C(O)0R 1 -C(0)N(Rl) 2 -C(O)N(R6b)(Rl), -C(O)N(R6b) 2

-C(NR

1 )(N(Rl) 2

-C(N(R

6 b))(N(Rl) 2

-C(N(R

1

(N(R

1 -C(N(R6b))(N(Rl -C(N(R1))(N(R 6 b) 2 -C(N(R6b))(N(R6b) 2

-N(R

1

)C(N(R

1 2 -N(Rj)C(N(Rl))(N(Rj)(R 6 -N(Rl)C(N(R 6 b))(N(Rl) 2 -N(R6b)C(N(RI))(N(Rj) 2 -N(R6b)C(N(R6b))(N(Rj) 2 -N(R6b)C(N(Rl))(N(Rl

-N(R

1 )C(N(R6b)) (N(R 1

-N(R

1 )C(N(Rl))(N(R 6 b) 2 -N(R6b)C(N(R 6 b))(N(RI -N(R6b)C(N(Rl))(N(R 6 b) 2 -N(Rj)C(N(R 6 (N(R6b)2), -N(R6b)C(N(R 6 b))(N(R 6 b) 2 =N(Rj) or =N(R6b); R4 is independently alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms; R5 is independently R4 wherein each R4 is substituted with 0 to 3 R3 groups; is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon atoms any one of which alkylene, alkenylene or alkynylene is substituted with 0-3 R3 groups; R6a is independently H or an ether- or ester-forming group; R6b is independently H, a protecting group for amino or the residue of a carboxyl-containing compound; R6c is independently H or the residue of an amino-containing compound; 22- WO 98/17647 PCT/US97/18193 W1 is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is a group comprising a basic heteroatom or a protected basic heteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R5, -C(O)W 5 -S02R5, or is carbocycle or heterocycle wherein W5 is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b)(N(R6b)2), -C(NR6b)(N(H)(R6b)), -C(S)N(R6b)2, or -C(O)R2; X1 is a bond, or -S02-; and each mi is independently an integer from 0 to 2; and the salts, solvates, resolved enantiomers and purified diastereomers thereof.

Typically A 3 is N or more typically A 3 is N.

In typical embodiments, one of Z 3 and G 2 is G1 or R3a and the other is W6 or -X 1

W

6 More typically, Z 3 is W 6 or R3a and G 2 is G1 or -X 1

W

6 More typically yet, Z 3 is W 6 and G2 is G1; or Z 3 is R 3 a and G 2 is -X 1

W

6

J

3 is J 1 if X 1 is a bond; and J 3 is J 2 if X 1 is or -S02-. The typical embodiments of J1 and J2, described above, are typical embodiments of J 3 An embodiment of the invention comprises a compound of the formula (XXI) or (XXIa): J2 J 2 a J1 W6\ E, W6\

E

I (XXI) (XXla) T, a T, J2a

J

2 J 2 G J 2 An embodiment of the invention comprises a compound of the formula (XXII) or (XXIIa): N6 EN W, N E I (XXII) (XXlla)

T

T1 G1

G,

-23- WO 98/17647 PCTIUS97/18193 An embodiment of the invention comprises a compound of the formula (XXIII) or (XXIIIa): W6-, N 1 W6, N, W 1 W3N (XXIII) W 3 J (XX ll la) 1 N (XXa1 I H R H N R 1 An embodiment of the invention comprises a compound of the formula (XXIV) or (XXIVa): Z2 Z 2 2 J

J

Z -N l 7Z-N 2J2a

E

TE l (XXIV) N (XXIVa) Tj N J2a T, N J J2 Z 2 J2 2 1 wherein one Zi is W 6 and the other Z 1 is G 1 and Z 2 is H or W 6 Typically, Z 2 is H.

An embodiment of the invention comprises a compound of the formula (XXV) or (XXVa):

Z

2 Z 2 We-N N /2 J2a TJ (XXV) I (XXVa) T, N 2a T N J 1 J2 G 2 J2 An embodiment of the invention comprises a compound of the formula (XXVI) or (XXVIa):

R

1 1 W 6-NE W 6

-N

4

E

S, (xxvI) (XXVia) T, N T,

N

G1 G, An embodiment of the invention comprises a compound of the formula (XXVII) or (XXVIIa): -24- WO 98/17647 PCT/US97/18193 W6-

(XXVII)

(XXVIIa) W3"

HN

Ri

R

An embodiment of the invention comprises a compound of the formula (XXVIII) or (XXVIIIa):

W

6 -O J J2 El T, N J2a J2 I J2 G1 An embodiment of the formula (XXIX) or (XXIXa): T N

I

G1 An embodiment of the formula (XXX) or (XXXa):

W

6 ^W

W

e -0 J2 J 2 a 2 E, (XXVIII) I l (XXVIII T, N J

J

2

I

G1 invention comprises a compound of the W6--001/,, El (XXIX) I (XXIX T, N

I

G1 invention comprises a compound of the a) a)

(XXX)

(XXXa) HN R H N'R 1 It is important to appreciate that each of the typical embodiments of formula (XXX) and (XXXa), set forth above and in the appended claims, are also embodiments of formulas (XXI)-(XXX) and (XXIa)-(XXXa), set forth immediately above.

Groups R6a and R6b are not critical functionalities and may vary widely.

When not H, their function is to serve as intermediates for the parental drug substance. This does not mean that they are biologically inactive. On the contrary, a principal function of these groups is to convert the parental drug into a prodrug, whereby the parental drug is released upon conversion of the WO 98/17647 PCT/US97/18193 prodrug in vivo. Because active prodrugs are absorbed more effectively than the parental drug they in fact often possess greater potency in vivo than the parental drug. When not hydrogen, R6a and R6b are removed either in vitro, in the instance of chemical intermediates, or in vivo, in the case of prodrugs.

With chemical intermediates, it is not particularly important that the resulting pro-functionality products, e.g. alcohols, be physiologically acceptable, although in general it is more desirable if the products are pharmacologically innocuous.

R6a is H or an ether- or ester-forming group. "Ether-forming group" means a group which is capable of forming a stable, covalent bond between the parental molecule and a group having the formula: S-O-Va(V) 3 -Va(V)(V 2 Va(V 3 S-O-Vb(Vl) 2 S-O-Vb(V 2 or S-O-V(V) Wherein Va is a tetravalent atom typically selected from C and Si; Vb is a trivalent atom typically selected from B, Al, N, and P, more typically N and P; Vc is a divalent atom typically selected from O, S, and Se, more typically S; V1 is a group bonded to Va, Vb or Vc by a stable, single covalent bond, typically V1 is W6 groups, more typically V1 is H, R2, W5, or -R5aW5, still more typically H or R2; V2 is a group bonded to Va or Vb by a stable, double covalent bond, provided that V2 is not =S or typically V2 is =C(V1)2 wherein V1 is as described above; and V3 is a group bonded to Va by a stable, triple covalent bond, typically V3 is =C(V 1 wherein V1 is as described above.

"Ester-forming group" means a group which is capable of forming a stable, covalent bond between the parental molecule and a group having the formula: S-o-va()( 4 S-o-V 4 S-0-Vd(Vl) 2

(V

4 S-0-Vd(V 4 2 S-O-Ve(V) 3

(V

4 or S-0-Ve(V)(V 4 2 Wherein Va, Vb, and V1, are as described above; Vd is a pentavalent atom typically selected from P and N; Ve is a hexavalent atom typically S; and V4 is a group bonded to Va, Vb, Vd or Ve by a stable, double covalent bond, provided that at least one V4 is =S or =N-V1, typically V4, when other than =S or is =C(V1)2 wherein V1 is as described above.

Protecting groups for -OH functions (whether hydroxy, acid or other functions) are embodiments of "ether- or ester-forming groups".

-26- WO 98/17647 PCTIUS97/18193 Particularly of interest are ether- or ester-forming groups that are capable of functioning as protecting groups in the synthetic schemes set forth herein. However, some hydroxyl and thio protecting groups are neither ethernor ester-forming groups, as will be understood by those skilled in the art, and are included with amides, discussed under R6c below. R6c is capable of protecting hydroxyl or thio groups such that hydrolysis from the parental molecule yields hydroxyl or thio.

In its ester-forming role, R6a typically is bound to any acidic group such as, by way of example and not limitation, a -CO2H or -C(S)OH group, thereby resulting in -CO2R6a. R6a for example is deduced from the enumerated ester groups of WO 95/07920.

Examples of R6a include

C

3

-C

12 heterocycle (described above) or C 6

-C

12 aryl. These aromatic groups optionally are polycyclic or monocyclic. Examples include phenyl, spiryl, 2- and 3-pyrrolyl, 2- and 3-thienyl, 2- and 4-imidazolyl, 4and 5-oxazolyl, 3- and 4-isoxazolyl, 4- and 5-thiazolyl, 4- and isothiazolyl, 3- and 4-pyrazolyl, 3- and 4-pyridinyl, and 4- and pyrimidinyl,

C

3

-C

12 heterocycle or C 6

-C

12 aryl substituted with halo, R1, R1-O- C1-C12 alkylene, C 1

-C

12 alkoxy, CN, NO 2 OH, carboxy, carboxyester, thiol, thioester, Ci-C 12 haloalkyl (1-6 halogen atoms), C 2

-C

12 alkenyl or C 2

-C

12 alkynyl. Such groups include 3- and 4-alkoxyphenyl (C 1

-C

12 alkyl), 3and 4-methoxyphenyl, 3- and 4-ethoxyphenyl, 3,4- and 2- and 3 -carboethoxy-4-hydroxyphenyl, 2- and 3-ethoxy-4hydroxyphenyl, 2- and 3-ethoxy-5-hydroxyphenyl,.2- and 3-ethoxy-6hydroxyphenyl, 3- and 4-O-acetylphenyl, 3- and 4dimethylaminophenyl, 3- and 4 -methylmercaptophenyl, 3- and 4halophenyl (including 3- and 4-fluorophenyl and 3- and 4chlorophenyl), 3,4- and 3,5-dimethylphenyl, 3,4- and 3,4- and 3,4- and 3,5-dihalophenyl (including 2,4-difluorophenyl and 3- and 4-haloalkylphenyl (1 to 5 halogen atoms, C 1

-C

1 2 alkyl including 4-trifluoromethylphenyl), 3- and 4-cyanophenyl, 3- and 4-nitrophenyl, 3- and 4-haloalkylbenzyl (1 to 5 halogen atoms, C 1

-C

12 alkyl including 4-trifluoromethylbenzyl and 3- and 4-trichloromethylphenyl and 3- and 4-trichloromethylphenyl), 4-N-methylpiperidinyl, 3-N- -27- WO 98/17647 WO 98/ 7647PCT/US97/18193 methylpiperidinyl, 1-ethylpiperazinyl, benzyl, alkylsalicyiphenyl (Cl-C 4 alkyl, including 3- and 4-ethylsalicyiphenyl), and 4-acetyiphenyl, 1,8dihydroxynaphthyl (-ClOH 6 -OH) and aryloxy ethyl [C 6

-C

9 aryl (including phenoxy ethyl)], 2,2'-dihydroxybiphenyl, 3- and 4-N,Ndialkylaminophenol,.

-C

6

H

4

CH

2

-N(CH

3 2 trimethoxybenzyl, triethoxybenzyl, 2-alkyl pyridinyl (C 1 4 alkyl); 0 H' CH OC()j ;C4 C8 esters of 2-carboxyphenyl; and CI-C 4 alkylene-C 3

-C

6 aryl (including benzyl, -CH 2 -pyrrolyl, -CH2-thienyl, -CH2-imidazolyl,

-CH

2 oxazolyl, -CH2-isoxazolyl, -CH2-thiazolyl, -CH2-isothiazolyl, -CH2-pyrazolyl, -CH2-pyridinyl and -CH 2 -pyrimidinyl) substituted in the aryl moiety by 3 to halogen atoms or 1 to 2 atoms or groups selected from halogen, Cl-C 12 alkoxy (including methoxy and ethoxy), cyano, nitro, OH, Cl-C 12 haloalkyl (1 to 6 halogen atoms; including -CH 2 -CCl 3 Cl-C 1 2 alkyl (including methyl and ethyl), C 2

-C

12 alkenyl or C 2

-C

12 alkynyl; alkoxy ethyl [CI-C 6 alkyl including -CH 2

-CH

2

-O-CH

3 (methoxy ethyl)]; alkyl substituted by any of the groups set forth above for aryl, in particular OH or by 1 to 3 halo atoms (including -CH 3

-CH(CH

3 2

-C(CH

3 3

-CH

2

CH

3

-(CH

2 2

CH

3

-(CH

2 3

CH

3

-(CH

2 4

CH

3

-(CH

2 5

CH

3

-CH

2

CH

2

F,

-CH

2

CH

2 Cl, -CH 2

CF

3 and -CH 2 CC1 3 -N 0 \/;-N-2-propylmorpholino, 2,3-dihydro-6hydroxyindene, sesamol, catechol monoester, -CH 2 -C(O)-N(Rl) 2

-CH

2

-CH

2

-S(O)

2 -CH2-CH(OC(O)CH 2 Rl)-CH 2

(OC(O)CH

2 Rl), cholesteryl, enolpyruvate (HOOC-C(=CH 2 glycerol; a 5 or 6 carbon monosaccharide, disaccharide or oligosaccharide (3 to 9 monosaccharide residues); triglycerides such as ax-D-f3-diglycerides (wherein the fatty acids composing glyceride lipids generally are naturally occurring saturated or unsaturated C6- 26

C

6 1 8 or C6-10 fatty acids such as linoleic, lauric, myristic, palmitic, stearic, oleic, palmitoleic, linolenic and the like fatty acids) linked to acyl of the parental compounds herein through a glyceryl oxygen of the 28- WO 98/17647 PCT/US97/18193 triglyceride; phospholipids linked to the carboxyl group through the phosphate of the phospholipid; phthalidyl (shown in Fig. 1 of Clayton et al., "Antimicrob. Agents Chemo." 5(6):670-671 [19741); cyclic carbonates such as (5-Rd- 2 -oxo-1,3-dioxolen-4-yl) methyl esters (Sakamoto et al., "Chem. Pharm. Bull." 32(6):2241-2248 [19841) where Rd is R1, R4 or aryl; and

-CH

2 C(O)N O The hydroxyl groups of the compounds of this invention optionally are substituted with one of groups III, IV or V disclosed in WO 94/21604, or with isopropyl.

As further embodiments, Table A lists examples of R6a ester moieties that for example can be bonded via oxygen to and 2 groups.

Several R6c amidates also are shown, which are bound directly to or Esters of structures 1-5, 8-10 and 16, 17, 19-22 are synthesized by reacting the compound herein having a free hydroxyl with the corresponding halide (chloride or acyl chloride and the like) and N ,N-dicyclohexyl-N-morpholine carboxamidine (or another base such as DBU, triethylamine, CsCO 3

N,N-

dimethylaniline and the like) in DMF (or other solvent such as acetonitrile or N-methylpyrrolidone). When W1 is phosphonate, the esters of structures 5-7, 11, 12, 21, and 23-26 are synthesized by reaction of the alcohol or alkoxide salt (or the corresponding amines in the case of compounds such as 13, 14 and with the monochlorophosphonate or dichlorophosphonate (or another activated phosphonate).

TABLE A 1. -CH 2 -C(0)-N(R 1 2 10. -CH 2 -O-C(0)-C(CH 3 3 2. -CH 2

-S(O)(R

1 11. -CH 2 -CCl 3 3. -CH 2 -S(0) 2

(R

1 12. -CsH 4. -CH2-0-C(0)-CH 2

-C

6

H

5 13. -NH-CH 2 -C(0)O-CH 2

CH

3 3-cholesteryl 14. -N(CH 3

)-CH

2 -C(0)O-CH 2

CH

3 6. 3-pyridyl 15. -NHR 1 7. N-ethylmorpholino 16. -CH 2 -O-C(0)-C 10

H

1 8. -CH 2 -O-C(0)-C 6

H

5 17. -CH2-0-C(O)-CH(CH 3 2 9. -CH2-0-C(0)-CH 2

CH

3 18. -CH2-C#H(OC(0)CH 2

R

1

)-CH

2 -(OC(0)CH 2

RI)

-29- WO 98/17647 PTU9/89 PCTIUS97/18193

NHO

-CH C(O)N 0NOH O 19. 2. 0 H2.HO iN N CH 3 0(O)C

-CH

2

CH

2

CH

2 24 22. 23.- 24

OCH

3

CH

3

CH

2 O(O)C

-CH

2 OCH 3 25. -b 26. OCH 3 chiral center is or racemate.

Other esters that are suitable for use herein are described in EP 632,048.

R6a also includes "double ester" forming profunctionalities such as -CH2OC(O)OCH 3 0 -CH2SCOCH 3 -CH2OCON(CH3)2, or alkyl- or aryl-acyloxyalkyl groups of the structure -CH(Ri or W5)O((CO)R37) or -CH(Ri or W5)(CO)0R38) (linked to oxygen of the acidic group) wherein R37 and R38 ar e alkyl, aryl, or alkylaryl groups (see U.S. Patent 4,968,788). Frequently R37 and R38 are bulky groups such as branched alkyl, ortho-substituted aryl, metasubstituted aryl, or combinations thereof, including normal, secondary, isoand tertiary alkyls of 1-6 carbon atoms. An example is the pivaloyloxymethyl group. These are of particular use with prodrugs for oral administration.

Examples of such useful R6a groups are alkylacyloxymethyl esters and their derivatives, including -CH(CH2CH 2

OCH

3 )cjC(o)C(CH 3 3 ,-0yC$4 on-CH2OC(O)CjoHj 5 -CH20C(O)C(CH 3 3 -CH(CH2OCH 3

)OC(O)C(CH

3 3

-CH(CH(CH

3 2

)OC(O)C(CH

3 3 2

CH(CH

3 2

-CH

2

OC(O)C

6 Hjj, -CH2OC(O)QH 5

-CH

2 OC(O)CjoH 15 -CH2OC(O)CH 2

CH

3 -CH2OC(O)CH(CH 3 2

-CH

2

OC(O)C(CH

3 3 and -CH2OC(O)CH 2

C

6

H

5 For prodrug purposes, the ester typically chosen is one heretofore used WO 98/17647 PCT/US97/18193 for antibiotic drugs, in particular the cyclic carbonates, double esters, or the phthalidyl, aryl or alkyl esters.

As noted, R6a, R6c and R6b groups optionally are used to prevent side reactions with the protected group during synthetic procedures, so they function as protecting groups (PRT) during synthesis. For the most part the decision as to which groups to protect, when to do so, and the nature of the PRT will be dependent upon the chemistry of the reaction to be protected against acidic, basic, oxidative, reductive or other conditions) and the intended direction of the synthesis. The PRT groups do not need to be, and generally are not, the same if the compound is substituted with multiple PRT.

In general, PRT will be used to protect carboxyl, hydroxyl or amino groups.

The order of deprotection to yield free groups is dependent upon the intended direction of the synthesis and the reaction conditions to be encountered, and may occur in any order as determined by the artisan.

A very large number of R6a hydroxy protecting groups and R6c amideforming groups and corresponding chemical cleavage reactions are described in "Protective Groups in Organic Chemistry", Theodora W. Greene (John Wiley Sons, Inc., New York, 1991, ISBN 0-471-62301-6) ("Greene"). See also Kocienski, Philip J. "Protecting Groups" (Georg Thieme Verlag Stuttgart, New York, 1994), which is incorporated by reference in its entirety herein. In particular Chapter 1, Protecting Groups: An Overview, pages 1-20, Chapter 2, Hydroxyl Protecting Groups, pages 21-94, Chapter 3, Diol Protecting Groups, pages 95-117, Chapter 4, Carboxyl Protecting Groups, pages 118-154, Chapter Carbonyl Protecting Groups, pages 155-184. For R6a carboxylic acid, phosphonic acid, phosphonate, sulfonic acid and other protecting groups for

W

1 acids see Greene as set forth below. Such groups include by way of example and not limitation, esters, amides, hydrazides, and the like.

In some embodiments the R6a protected acidic group is an ester of the acidic group and R6a is the residue of a hydroxyl-containing functionality. In other embodiments, an R6c amino compound is used to protect the acid functionality. The residues of suitable hydroxyl or amino-containing functionalities are set forth above or are found in WO 95/07920. Of particular interest are the residues of amino acids, amino acid esters, polypeptides, or aryl alcohols. Typical amino acid, polypeptide and carboxyl-esterified amino acid residues are described on pages 11-18 and related text of WO 95/07920 as groups L1 or L2. WO 95/07920 expressly teaches the amidates of phosphonic acids, but it will be understood that such amidates are formed with any of the acid -31- WO 98/17647 PCTIUS97/18193 groups set forth herein and the amino acid residues set forth in WO 95/07920.

Typical R6a esters for protecting W1 acidic functionalities are also described in WO 95/07920, again understanding that the same esters can be formed with the acidic groups herein as with the phosphonate of the '920 publication. Typical ester groups are defined at least on WO 95/07920 pages 89- 93 (under R 3 1 or R 3 5 the table on page 105, and pages 21-23 (as Of particular interest are esters of unsubstituted aryl such as phenyl or arylalkyl such benzyl, or hydroxy-, halo-, alkoxy-, carboxy- and/or alkylestercarboxysubstituted aryl or alkylaryl, especially phenyl, ortho-ethoxyphenyl, or C 1

-C

4 alkylestercarboxyphenyl (salicylate

C

1

-C

12 alkylesters).

The protected acidic groups W1, particularly when using the esters or amides of WO 95/07920, are useful as prodrugs for oral :administration.

However, it is not essential that the W1 acidic group be protected in order for the compounds of this invention to be effectively administered by the oral route. When the compounds of the invention having protected groups, in particular amino acid amidates or substituted and unsubstituted aryl esters are administered systemically or orally they are capable of hydrolytic cleavage in vivo to yield the free acid.

One or more of the acidic hydroxyls are protected. If more than one acidic hydroxyl is protected then the same or a different protecting group is employed, the esters may be different or the same, or a mixed amidate and ester may be used.

Typical R 6 a hydroxy protecting groups described in Greene (pages 14-118) include Ethers (Methyl); Substituted Methyl Ethers (Methoxymethyl, Methylthiomethyl, t-Butylthiomethyl, (Phenyldimethylsilyl)methoxymethyl, Benzyloxymethyl, p-Methoxybenzyloxymethyl, 4 -Methoxyphenoxy)methyl, Guaiacolmethyl, t-Butoxymethyl, 4 -Pentenyloxymethyl, Siloxymethyl, 2 -Methoxyethoxymethyl, 2 ,2, 2 -Trichloroethoxymethyl, Bis(2chloroethoxy)methyl, 2 -(Trimethylsilyl)ethoxymethyl, Tetrahydropyranyl, 3 -Bromotetrahydropyranyl, Tetrahydropthiopyranyl, 1-Methoxycyclohexyl, 4 -Methoxytetrahydropyranyl, 4 -Methoxytetrahydrothiopyranyl, 4 -Methoxytetrahydropthiopyranyl S,S-Dioxido, 1-[(2-Chloro-4-methyl)phenyl]- 4 -methoxypiperidin-4-yl, 35, 1, 4 -Dioxan-2-yl, Tetrahydrofuranyl, Tetrahydrothiofuranyl, 2 ,3, 3 a, 4 ,5, 6 ,7,7a-Octahydro-7,8,8-trimethyl-4,7methanobenzofuran-2-yl)); Substituted Ethyl Ethers (1-Ethoxyethyl, 1-( 2 -Chloroethoxy)ethyl, l-Methyl-1-methoxyethyl, 1-Methyl-1-benzyloxyethyl, l-Methyl-1-benzyloxy-2-fluoroethyl, 2,2,2-Trichloroethyl, 2- -32- WO 98/17647 WO 9817647PCT/US97/18193 Trimethylsilylethyl, 2-(Phenylselenyl)ethyl, t-Butyl, Allyl, p-Chlorophenyl, p- Methoxyphenyl, 2,4-Dinitrophenyl, Benzyl); Substituted Benzyl Ethers (p-Methoxybenzyl, 3,4-Dimethoxybenzyl, o-Nitrobenzyl, p-Nitrobenzyl, p-Halobenzyl, 2,6-Dichlorobenzyl, p-Cyanobenzyl, p-Phenylbenzyl, 2- and 4-Picolyl, 3-Methyl- 2 -picolyl N-Oxido, Diphenylmethyl, p,p'-Dinitrobenzhydryl, Triphenylmethyl, (x-Naphthyldiphenylmethyl, pmethoxyphenyldiphenylmethyl, Di(p-methoxyphenyl)phenylmethyl, Tri(pmethoxyphenyl)methyl, 4 4 '-Bromophenacyloxy)phenyldiphenylmethyl, 4 4 4 1 -Tris(4,5-dichlorophthalimidophenyl)methyl, 4,49,4I- Tris(levulinoyloxyphenyl)methyl, 4 4 4 1 -Tris(benzoyloxyphenyl)methyl, 3 -(Imidazol-l-ylmethyl)bis(4',4"-dimethoxyphenyl)methyl, 1,1-Bis(4methoxyphenyl)-1 -pyrenylmethyl, 9-Anthryl, 9-(9-Phenyl)xanthenyl, 9-(9-Phenyl-1 0-oxo)anthryl, 1 ,3-Benzodithiolan-2-yI, Benzisothiazolyl S,S- Dioxido); Silyl Ethers (Trimethylsilyl, Triethylsilyl, Triisopropylsilyl, Dimethylisopropylsilyl, Diethylisopropylsily, Dimethyithexylsilyl, t- Butyldimethylsilyl, t-Butyldiphenylsilyl, Tribenzylsilyl, Tri-p-xylylsilyl, Triphenylsilyl, Diphenylmethylsilyl, t-Butylmethoxyphenylsilyl); Esters (Formate, Benzoylformate, Acetate, Choroacetate, Dichioroacetate, Trichioroacetate, Trifluoro acetate, Methoxyacetate, Triphenylmethoxyacetate, Phenoxyacetate, p-Chlorophenoxyacetate, p-poly-Phenylacetate, 3-Phenyipropionate, 4 -Oxopentanoate (Levulinate), 4,4- (Ethylenedithio)pentanoate, Pivaloate, Adamantoate, Crotonate, 4-Methoxycrotonate, Benzoate, p-Phenylbenzoate, 2,4,6-Trimethylbenzoate (Mesitoate)); Carbonates (Methyl, 9-Fluorenylmethyl, Ethyl, 2,2,2- Trichloroethyl, 2-(Trimethylsilyl)ethyl, 2- (Phenylsulfonyl) ethyl, 2-(Triphenylphosphonio)ethyl, Isobutyl, Vinyl, Allyl, p-Nitrophenyl, Benzyl, p-Methoxybenzyl, 3,4-Dimethoxybenzyl, o-Nitrobenzyl, p-Nitrobenzyl, Benzyl Thiocarbonate, 4-Ethoxy-1-naphthyl, Methyl Dithiocarbonate); Groups With Assisted Cleavage (2-Iodobenzoate, 4-Azidobutyrate, 4-Niotro-4methylpentanoate, o-(Dibromomethyl)benzoate, 2-Formylbenzenesulfonate, 2-(Methylthiomethoxy)ethyl Carbonate, 4-(Methylthiomethoxy)butyrate, 2 -(Methylthiomethoxymethyl)benzoate); Miscellaneous Esters (2,6-Dichloro-4methyiphenoxyacetate, 2,6-Dichloro-4-(1,1 13,3 tetramethylbutyl)phenoxyacetate, 2,4-Bis( 1,1-dimethylpropyl)phenoxyacetate, Chorodiphenylacetate, Isobutyrate, Monosuccinoate, (E)-2-Methyl-2-butenoate (Tigloate), o-(Methoxycarbonyl)benzoate, p-poly-Benzoate, cx-Naphthoate, 33- WO 98/17647 PCT/US97/18193 Nitrate, Alkyl N,N,N',N'-Tetramethylphosphorodiamidate,

N-

Phenylcarbamate, Borate, Dimethylphosphinothioyl, 2,4- Dinitrophenylsulfenate); and Sulfonates (Sulfate, Methanesulfonate (Mesylate), Benzylsulfonate, Tosylate).

More typically, R6a hydroxy protecting groups include substituted methyl ethers, substituted benzyl ethers, silyl ethers, and esters including sulfonic acid esters, still more typically, trialkylsilyl ethers, tosylates and acetates.

Typical 1,2-diol protecting groups (thus, generally where two OH groups are taken together with the Ra protecting functionality) are described in Greene at pages 118-142 and include Cyclic Acetals and Ketals (Methylene, Ethylidene, 1-t-Butylethylidene, 1-Phenylethylidene, (4-Methoxyphenyl)ethylidene, 2,2,2-Trichioroethylidene, Acetonide (Isopropylidene), Cyclopentylidene, Cyclohexylidene, Cycloheptylidene, Benzylidene, p-Methoxybenzylidene, 2,4-Dimethoxybenzylidene, 3,4-Dimethoxybenzylidene, 2-Nitrobenzylidene); Cyclic Ortho Esters (Methoxymethylene, Ethoxymethylene, Dimethoxymethylene, 1-Methoxyethylidene, 1-Ethoxyethylidine, 1,2-Dimethoxyethylidene, a-Methoxybenzylidene, 1-(N,N-Dimethylamino)ethylidene Derivative, a-(N,N-Dimethylamino)benzylidene Derivative, 2-Oxacyclopentylidene); Silyl Derivatives (Di-t-butylsilylene Group, 1,3-(1,1,3,3- Tetraisopropyldisiloxanylidene), and Tetra-t-butoxydisiloxane-1,3-diylidene), Cyclic Carbonates, Cyclic Boronates, Ethyl Boronate and Phenyl Boronate.

More typically, 1,2-diol protecting groups include those shown in Table B, still more typically, epoxides, acetonides, cyclic ketals and aryl acetals.

Table B 0 0 0 0" 0 0 \S

S

q 00N 0 0 0 00

R

9 -N o R 9 0-N, O z0Y S"P\ 0 0 0 R 9 0 -34- WO 98/17647 PTU9/89 PCTfUS97/18193 wherein R 9 is Cl-C6 alkyl.

R6b is H, a protecting group for amnino or the residue of a carboxylcontaining compound, in particular H, -C(O)R4, an amino acid, a polypeptide or a protecting group not -C(O)R4, amino acid or polypeptide. Amide-forming R6b are found for instance in group G1. When R6b is an amino acid or polypeptide it has the structure R1 5 NHCH(Rl6)C(O)-, where R 15 is H, an amino acid or polypeptide residue, or R5, and R16 is defined below.

R

16 is lower alkyl or lower alkyl (Cl-C 6 substituted with amino, carboxyl, amide, carboxyl ester, hydroxyl, C 6

-C

7 aryl, guanidinyl, imidazolyl, indolyl, sulfhydryl, sulfoxide, and/or alkyiphosphate.

R

16 also is taken together with the amino acid a N to form a- proline residue'(R 16 C23) However, R 16 is generally the side group of a. naturally-occurring amino acid such as H, -CH 3

-CH(CH

3 2

-CH

2

-CH(CH

3 2

-CHCH

3

-CH

2

-CH

3

-CH

2

-C

6

H

5

-CH

2

CH

2

-S-CH

3

-CH

2 OH, -CH(OH)-CH 3

-CH

2 -SH, -CH 2

-C

6

H

4 OH, -CH 2

-CO-

NH

2

-CH

2

-CH

2

-CO-NH

2

-CH

2 -COOH, -CH 2

-CH

2 -COOH, -(CH 2 4

-NH

2 and -(CH2)3-NH-C(NH 2

)-NH

2

R

1 6 also includes 1-guanidinoprop-3-yl, benzyl, 4hydroxybenzyl, imidazol-4-yl, indol-3-yl, methoxyphenyl and ethoxyphenyl.

R6b are residues of carboxylic acids for the most part, but any'of the typical amino protecting groups described by Greene at pages 315-385 are useful. They include Carbamnates (methyl and ethyl, 9-fluorenylmethyl, 9(2sulfo)fluoroenylmethyl, 9 2 7 -dibromo)fluorenylmethyl, 2,7-di-t-buthyl- [9- (10,1 0-dioxo-1 0,10,10,1 0-tetrahydrothioxanthyl)] methyl, 4-methoxyphenacyl); Substituted Ethyl (2,2,2-trichoroethyl, 2-trimethylsilylethyl, 2-phenylethyl, l-adamantyl)-1-methylethyl, 1, 1-dimethyl-2-haloethyl, 1, 1-dimethyl-2,2dibromoethyl, 1, 1-dimethyl-2,2,2-trichloroethyl, 1-methyl-1-(4biphenylyl)ethyl, l-( 3 ,5-di-t-butylphenyl)-l-methylethyl, and 4'pyridyl)ethyl, 2 -(NN-dicyclohexylcarboxamido)ethyl, t-butyl, 1-adamantyl, vinyl, allyl, l-isopropylallyl, cinnamyl, 4 -nitrocinnamyl, 8-quinolyl, N-hydroxypiperidinyl, alkyldithio, benzyl, p-methoxybenzyl, p-nitrobenzyl, p-bromobenzyl, pchorobenzyl, 2,4-dichlorobenzyl, 4 -methylsulfinylbenzyl, 9-anthrylmnethyl, diphenylmethyl); Groups With Assisted Cleavage (2-methylthioethyl, 2-methylsulfonylethyl, 2 -(p-toluenesulfonyl)ethyl, ,3-dithianyl) ]methyl, 4-methylthiophenyl, 2,4-dimethyithiophenyl, 2-phosphonioethyl, 2 -triphenylphosphonioisopropyl, 1, l-dimethyl-2-cyanoethyl, m-choro-pacyloxybenzyl, p-(dihydroxyboryl)benzyl, WO 98/17647 WO 9817647PCTIUS97/18193 2-(trifluoromethyl)-6-chromonylmethyl); Groups Capable of Photolytic Cleavage (m-nitrophenyl, 3,5-dimethoxybenzyl, o-nitrobenzyl, 3,4-dimethoxy- 6-nitrobenzyl, phenyl(o-nitrophenyl)methyl); Urea-Type Derivatives N'-p-toluenesulfonylaminocarbonyl,

N'-

phenylaminothiocarbonyl); Miscellaneous Carbamnates (t-amyl, S-benzyl thiocarbamate, p-cyanobenzyl, cyclobutyl, cyclohexyl, cyclopentyl, cyclopropylmethyl, p-decyloxybenzyl, diisopropylmethyl, 2,2dimethoxycarbonylvinyl, o-(N,N-dimethylcarboxamido)benzyl, 1, 1-d imethyl- 3-(N,N-dimethylcarboxamido)propyl, 1 ,1-dimethylpropynyl, di(2pyridyl)methyl, 2-furanylmethyl, 2-Iodoethyl, Isobornyl, Isobutyl, Isonicotinyl, p-(p'-Methoxyphenylazo)benzyl, 1-methylcyclobutyl, 1-methylcyclohexyl, 1methyl-i -cyclopropylmethyl, 1-methyl-i- (3,5-d imethoxyphenyl)ethyl, 1methyl-i -(p-phenylazophenyl)ethyl, 1-methyl-i -phenylethyl, 1 -methyl-1-(4pyridyl)ethyl, phenyl, p-(phenylazo)benzyl, 2,4,6-tri-t-butylphenyl, 4- (trimethylammonium)benzyl, 2,4,6-trimethylbenzyl); Amides (N-formyl, Nacetyl, N-choroacetyl, N-trichoroacetyl, N-trifluoroacetyl, N-phenylacetyl, N-3phenylpropionyl, N-picolinoyl, N-3-pyridylcarboxamide,

N-

benzoylphenylalanyl, N-benzoyl, N-p-phenylbenzoyl); Amides With Assisted Cleavage (N-o-nitrophenylacetyl, N-o-nitrophenoxyacetyl, N-acetoacetyl, dithiobenzyloxycarbonylamino)acetyl, N-3-(p-hydroxyphenyl)propionyl, N-3- (o-nitrophenyl)propionyl,

N-

2 -methyl-2-(o-nitrophenoxy)propionyl, N-2methyl-2-(o-phenylazophenoxy)propionyl, N-4-chlorobutyryl, N-3-methyl-3nitrobutyryl, N-o-nitrocinnamoyl, N-acetylmethionine, N-o-nitrobenzoyl, No-(benzoyloxymethyl)benzoyl, 4 ,5-diphenyl-3-oxazolin-2-one); Cyclic Imide Derivatives (N-phthalimide, N-d ithiasuccinoyl, N-2,3-diphenylmaleoyl,

N-

2 ,5-dimethylpyrrolyl, N-i,l 4 4 -tetramethyldisilylazacyclopentane adduct, l, 3 -dimethyl-1,3,5-triazacyclohexan-2-one, 5-substituted 1,3dibenzyl- 1, 3 -5-triazacyclohexan-2-one, 1-substituted 3,5-dinitro-4-pyridonyl); N-Alkyl and N-Aryl Amines (N-methyl, N-allyl, N-[2- (trimethylsilyl)ethoxy]methyl, N-3-acetoxypropyl, N-(1-isopropyl-4-nitro-2oxo-3-pyrrolin-3-yl), Quaternary Ammonium Salts, N-benzyl, N-di(4methoxyphenyl)methyl, N-5-dibenzosuberyl, N-triphenylmethyl, N-(4methoxyphenyl)diphenylmethyl, N-9-phenylfluorenyl, N-2,7-dichloro-9fluorenylmethylene, N-ferrocenylmethyl, N-2-picolylamine N'-oxide), Imine Derivatives (N-i ,1 -dimethylthiomethylene, N-benzylidene, N-pmethoxybenylidene, N-diphenylmethylene, N- 2 -pyridyl)mesityl]methylene, N,(N',N'-dimethylaminomethylene, N,N'-isopropylidene, N-p- 36- WO 98/17647 WO 9817647PCT/US97/18193 nitrobenzylidene, N-salicylidene, N-5-chlorosalicylidene, N-(5-chloro-2hyd roxyphenyl)phenylmethylene, N-cyclohexylidene); Enamine Derivatives (N-(5,5-dimethyl-3-oxo- 1-cyclohexenyl)); N-Metal Derivatives (N-borane derivatives, N-diphenylborinic acid derivatives, N- [phenyl(pentacarbonylchromium- or -tungsten)]I carbenyl, N-copper or N-zinc chelate); N-N Derivatives (N-nitro, N-nitroso, N-oxide); N-P Derivatives (Ndiphenyiphosphinyl, N-dimethylthiophosphinyl, N-diphenylthiophosphinyl, N-dialkyl phosphoryl, N-dibenzyl phosphoryl, N-diphenyl phosphoryl); N-Si Derivatives; N-S Derivatives; N-Sulfenyl Derivatives (N-benzenesulfenyl,

N-

o-nitrobenzenesulfenyl, N-2,4-dinitrobenzenesulfenyl,

N-

pentachlorobenzenesulfenyl,

N-

2 -nitro-4-methoxybenzenesulfenyl,

N-

triphenylmethylsulfenyl, N-3-nitropyridinesulfenyl); and N-sulfonyl Derivatives (N-p-toluenesulfonyl, N-benzenesulfonyl, N-2,3,6-trimethyl-4methoxybenzenesulfonyl,

N-

2 ,4,6-trimethoxybenzenesulfonyl, N-2,6dimethyl-4-methoxybenzenesulfonyl, N-pentamethylbenzenesulfonyl,

N-

2 3 1

S,

6 -tetramethyl-4-methoxybenzenesulfony1, N-4-methoxybenzenesulfonyl, N-2,4,6-trimethylbenzenesulfonyl, N-2,6-dimethoxy-4methylbenzenesulfonyl,

N-

2 2 5, 7 8 -pentamethylchroman-6-sulfonyl,

N-

methanesulfonyl, N-0-trimethylsilyethanesulfonyl, N-9-anthracenesulfonyl, '-dimethoxynaphthylmethyl)benzenesulfonyl, N-benzylsulfonyl,

N-

trifluoromethylsulfonyl, N-phenacylsulfonyl).

More typically, protected amino groups include carbamnates and amides, still more typically, -NHC(O)Rl or -N=CRlN(R 1 2 Another protecting group, also useful as a prodrug at the GI site, particularly for amino or -NH(R5), is: 0 I6 0 see for example Alexander, J. et al., Med. Chem." 39:480-486 (1996).

R

6 c is H or the residue of an amino-containing compound, in particular an amino acid, a polypeptide, a protecting group, -NHSO2R4, NHC(O)R4, -N(R4)2, NH2 or whereby for example the carboxyl or phosphonic acid groups of W1 are reacted with the amine to form an amide, as in -C(O)R6c, -P()(Rc)2or -P(O)(OH)(R 6 In general, R6c has the structure R17C(O)CH(R 16 where R 1 7 is OH, OR6a, OR5, an amino acid or a polypeptide residue.

Amino acids are. low molecular weight compounds, on the order of less 37- WO 98/17647 PCT/US97/18193 than about 1,000 MW, that contain at least one amino or imino group and at least one carboxyl group. Generally the amino acids will be found in nature, can be detected in biological material such as bacteria or other microbes, plants, animals or man. Suitable amino acids typically are alpha amino acids, i.e. compounds characterized by one amino or imino nitrogen atom separated from the carbon atom of one carboxyl group by a single substituted or unsubstituted alpha carbon atom. Of particular interest are hydrophobic residues such as mono-or di-alkyl or aryl amino acids, cycloalkylamino acids and the like. These residues contribute to cell permeability by increasing the partition coefficient of the parental drug. Typically, the residue does not contain a sulfhydryl or guanidino substituent.

Naturally-occurring amino acid residues are those residues found naturally in plants, animals or microbes, especially proteins thereof.

Polypeptides most typically will be substantially composed of such naturallyoccurring amino acid residues. These amino acids are glycine, alanine, valine, leucine, isoleucine, serine, threonine, cysteine, methionine, glutamic acid, aspartic acid, lysine, hydroxylysine, arginine, histidine, phenylalanine, tyrosine, tryptophan, proline, asparagine, glutamine and hydroxyproline.

When R6b and R6c are single amino acid residues or polypeptides they usually are substituted at R3, W6, W1 and/or W2, but typically only W1 or W2. These conjugates are produced by forming an amide bond between a carboxyl group of the amino acid (or C-terminal amino acid of a polypeptide for example) and W2. Similarly, conjugates are formed between W1 and an amino group of an amino acid or polypeptide. Generally, only one of any site in the parental molecule is amidated with an amino acid, as described herein, although it is within the scope of this invention to introduce amino acids at more than one permitted site. Usually, a carboxyl group of W1 is amidated with an amino acid. In general, the a-amino or a-carboxyl group of the amino acid or the terminal amino or carboxyl group of a polypeptide are bonded to the parental functionalities, carboxyl or amino groups in the amino acid side chains generally are not used to form the amide bonds with the parental compound (although these groups may need to be protected during synthesis of the conjugates as described further below).

With respect to the carboxyl-containing side chains of amino acids or polypeptides it will be understood that the carboxyl group optionally will be blocked, e.g. by R6a, esterified with R 5 or amidated with R6c. Similarly, the -38- WO 98/17647 PCT/US97/18193 amino side chains R16 optionally will be blocked with R6b or substituted with Such ester or amide bonds with side chain amino or carboxyl groups, like the esters or amides with the parental molecule, optionally are hydrolyzable in vivo or in vitro under acidic (pH or basic (pH conditions. Alternatively, they are substantially stable in the gastrointestinal tract of humans but are hydrolyzed enzymatically in blood or in intracellular environments. The esters or amino acid or polypeptide amidates also are useful as intermediates for the preparation of the parental molecule containing free amino or carboxyl groups. The free acid or base of the parental compound, for example, is readily formed from the esters or amino acid or polypeptide conjugates of this invention -by conventional hydrolysis procedures.

When an amino acid residue contains one or more chiral centers, any of the D, L, meso, threo or erythro (as appropriate) racemates, scalemates or mixtures thereof may be used. In general, if the intermediates are to be hydrolyzed non-enzymatically (as would be the case where the amides are used as chemical intermediates for the free acids or free amines), D isomers are useful. On the other hand, L isomers are more versatile since they can be susceptible to both non-enzymatic and enzymatic hydrolysis, and are more efficiently transported by amino acid or dipeptidyl transport systems in the gastrointestinal tract.

Examples of suitable amino acids whose residues are represented by R6b and R6c include the following: Glycine; Aminopolycarboxylic acids, e.g.,.aspartic acid, P-hydroxyaspartic acid, glutamic acid, P-hydroxyglutamic acid, P-methylaspartic acid, Pmethylglutamic acid, P,3-dimethylaspartic acid, y-hydroxyglutamic acid, dihydroxyglutamic acid, P-phenylglutamic acid, y-methyleneglutamic acid, 3aminoadipic acid, 2-aminopimelic acid, 2 -aminosuberic acid and 2aminosebacic acid; Amino acid amides such as glutamine and asparagine; Polyamino- or polybasic-monocarboxylic acids such as arginine, lysine, -aminoalanine, y-aminobutyrine, ornithine, citruline, homoarginine, homocitrulline, hydroxylysine, allohydroxylsine and diaminobutyric acid; Other basic amino acid residues such as histidine; Diaminodicarboxylic acids such as a,a'-diaminosuccinic acid, a,a'- -39- WO 98/17647 PCT/US97/18193 diaminoglutaric acid, ax,&x-diaminoadipic acid, ec,&x-diaminopimelic acid, a,a'diamino-f3-hydroxypimelic acid, ax,&X-diaminosuberic acid, a,o'diaminoazelaic acid, and ax,a'-diaminosebacic acid; Imino acids such as proline, hydroxyproline, allohydroxyproline, 7methyiproline, pipecolic acid, 5-hydroxypipecolic acid, and azetidine-2carboxylic acid; A mono- or di-alkyl (typically C 1

C

8 branched or normal) amino acid such as alanine, valine, leucine, allyiglycine, butyrine, norvaline, norleucine, heptyline, ax-methylserine, ax-amino-a-methyl-y-hydroxyvaleric acid, ax-aminoax-methyl-5-hydroxyvaleric acid, ax-amino-a-methyl-E-hydroxycaproic acid, isovaline, a-methylglutamic acid, ac-aminoisobutyric acid, axaminodiethylacetic acid, ax-aminodiisopropylacetic acid, i(-aminodi-npropylacetic acid, a-aminodiisobutylacetic acid, ax-aminodi-n-butylacetic acid, a-aminoethylisopropylacetic acid, ax-amino-n-propylacetic acid, axaminodiisoamyacetic acid, ax-methylaspartic acid, ax-methylglutamic acid, 1aminocyclopropane-1 -carboxylic acid, isoleucine, alloisoleucine, tert-leucine, 1-methyltryptophan and ax-amino- 1-ethyl-]-phenylpropionic acid; f-phenylserinyl; Aliphatic ac-amino-f3-hydroxy acids such as serine, f-hydroxyleucine, 03hydroxynorleucine, f-hydroxynorvaline, and t- amino- 0-hydroxystearic acid; ax-Amino, ac-, 8- or c-hydroxy acids such as homoserine, Yhydroxynorvaline, 5-hydroxynorvaline and epsilon-hydroxynorleucine residues; canavine and canaline; y-hydroxyornithine; 2-hexosaminic acids such as D-glucosaminic acid or D-galactosaminic acid; ax-Amino-3-thiols such as penicillamine, P-thiolnorvaline or 13thiolbutyrine; Other sulfur containing amino acid residues including cysteine; homocystine, f-phenylmethionine, methionine, S-allyl-L-cysteine sulfoxide, 2-thiolhistidine, cystathionine, and thiol ethers of cysteine or homocysteine; Phenylalanine, tryptophan and ring-substituted a amino acids such as the phenyl- or cyclohexylamino acids a-aminophenylacetic acid, axaminocyclohexylacetic acid and a-amino-1 3 -cyclohexylpropionic acid; phenylalanine analogues and derivatives comprising aryl, lower alkyl, hydroxy, guanidino, oxyalkylether, n itro, sulfur or halo-substituted phenyl tyrosine, methyltyrosine and o-chloro-, p-chloro-, 3,4-dicloro, m- or p methyl-, 2,4,6-trimethyl-, 2-ethoxy-5-nitro-, 2-hydroxy-5-nitro- and p-nitro- WO 98/17647 PCT/US97/18193 phenylalanine); furyl-, thienyl-, pyridyl-, pyrimidinyl-, purinyl- or naphthylalanines; and tryptophan analogues and derivatives including kynurenine, 3hydroxykynurenine, 2-hydroxytryptophan and 4-carboxytryptophan; a-Amino substituted amino acids including sarcosine (Nmethylglycine), N-benzylglycine, N-methylalanine, N-benzylalanine, Nmethylphenylalanine, N-benzylphenylalanine, N-methylvaline and Nbenzylvaline; and a0-Hydroxy and substituted a-hydroxy amino acids including serine, threonine, allothreonine, phosphoserine and phosphothreonine.

Polypeptides are polymers of amino acids in which a carboxyl group of one amino acid monomer is bonded to an amino or imino group of the next amino acid monomer by an amide bond. Polypeptides include dipeptides, low molecular weight polypeptides (about 1500-5000MW) and proteins. Proteins optionally contain 3, 5, 10, 50, 75, 100 or more residues, and suitably are substantially sequence-homologous with human, animal, plant or microbial proteins. They include enzymes hydrogen peroxidase) as well as immunogens such as KLH, or antibodies or proteins of any type against which one wishes to raise an immune response. The nature and identity of the polypeptide may vary widely.

The polypeptide amidates are useful as immunogens in raising antibodies against either the polypeptide (if it is not immunogenic in the animal to which it is administered) or against the epitopes on the remainder of the compound of this invention.

Antibodies capable of binding to the parental non-peptidyl compound are used to separate the parental compound from mixtures, for example in diagnosis or manufacturing of the parental compound. The conjugates of parental compound and polypeptide generally are more immunogenic than the polypeptides in closely homologous animals, and therefore make the polypeptide more immunogenic for facilitating raising antibodies against it.

Accordingly, the polypeptide or protein may not need to be immunogenic in an animal typically used to raise antibodies, rabbit, mouse, horse, or rat, but the final product conjugate should be immunogenic in at least one of such animals. The polypeptide optionally contains a peptidolytic enzyme cleavage site at the peptide bond between the first and second residues adjacent to the acidic heteroatom. Such cleavage sites are flanked by enzymatic recognition structures, e.g. a particular sequence of residues recognized by a peptidolytic enzyme.

-41- WO 98/17647 PCT/US97/18193 Peptidolytic enzymes for cleaving the polypeptide conjugates of this invention are well known, and in particular include carboxypeptidases.

Carboxypeptidases digest polypeptides by removing C-terminal residues, and are specific in many instances for particular C-terminal sequences. Such enzymes and their substrate requirements in general are well known. For example, a dipeptide (having a given pair of residues and a free carboxyl terminus) is covalently bonded through its a-amino group to the phosphorus or carbon atoms of the compounds herein. In embodiments where W1 is phosphonate it is expected that this peptide will be cleaved by the appropriate peptidolytic enzyme, leaving the carboxyl of the proximal amino acid residue to autocatalytically cleave the phosphonoamidate bond.

Suitable dipeptidyl groups (designated by their single letter code) are AA, AR, AN, AD, AC, AE, AQ, AG, AH, AI, AL, AK, AM, AF, AP, AS, AT, AW, AY, AV, RA, RR, RN, RD, RC, RE, RQ, RG, RH, RI, RL, RK, RM, RF, RP, RS, RT, RW, RY, RV, NA, NR, NN, ND, NC, NE, NQ, NG, NH, NI, NL, NK, NM, NF, NP, NS, NT, NW, NY, NV, DA, DR, DN, DD, DC, DE, DQ, DG, DH, DI, DL, DK, DM, DF, DP, DS, DT, DW, DY, DV, CA, CR, CN, CD, CC, CE, CQ, CG, CH, CI, CL, CK, CM, CF, CP, CS, CT, CW, CY, CV, EA, ER, EN, ED, EC, EE, EQ, EG, EH, EI, EL, EK, EM, EF, EP, ES, ET, EW, EY, EV, QA, QR, QN, QD, QC, QE, QQ, QG, QH, QI, QL, QK, QM, QF, QP, QS, QT, QW, QY, QV, GA, GR, GN, GD, GC, GE, GQ, GG, GH, GI, GL, GK, GM, GF, GP, GS, GT, GW, GY, GV, HA, HR, HN, HD, HC, HE, HQ, HG, HH, HI, HL, HK, HM, HF, HP, HS, HT, HW, HY, HV, IA, IR, IN, ID, IC, IE, IQ, IG, IH, II, IL, IK, IM, IF, IP, IS, IT, IW, IY, IV, LA, LR, LN, LD, LC, LE, LQ, LG, LH, LI, LL, LK, LM, LF, LP, LS, LT, LW, LY, LV, KA, KR, KN, KD, KC, KE, KQ, KG, KH, KI, KL, KK, KM, KF, KP, KS, KT, KW, KY, KV, MA, MR, MN, MD, MC, ME, MQ, MG, MH, MI, ML, MK, MM, MF, MP, MS, MT, MW, MY, MV, FA, FR, FN, FD, FC, FE, FQ, FG, FH, FI, FL, FK, FM, FF, FP, FS, FT, FW, FY, FV, PA, PR, PN, PD, PC, PE, PQ, PG, PH, PI, PL, PK, PM, PF, PP, PS, PT, PW, PY, PV, SA, SR, SN, SD, SC, SE, SQ, SG, SH, SI, SL, SK, SM, SF, SP, SS, ST, SW, SY, SV, TA, TR, TN, TD, TC, TE, TQ, TG, TH, TI, TL, TK, TM, TF, TP, TS, TT, TW, TY, TV, WA, WR, WN, WD, WC, WE, WQ, WG, WH, WI, WL, WK, WM, WF, WP, WS, WT, WW, WY, WV, YA, YR, YN, YD, YC, YE, YQ, YG, YH, YI, YL, YK, YM, YF, YP, YS, YT, YW, YY, YV, VA, VR, VN, VD, VC, VE, VQ, VG, VH, VI, VL, VK, VM, VF, VP, VS, VT, VW, VY and VV.

Tripeptide residues are also useful as R6b or R6c. When W1 is phosphonate, the sequence -X4-pro-X5- (where X4 is any amino acid residue -42- WO 98/17647 PCT/US97/18193 and X5 is an amino acid residue, a carboxyl ester of proline, or hydrogen) will be cleaved by luminal carboxypeptidase to yield X4 with a free carboxyl, which in turn is expected to autocatalytically cleave the phosphonoamidate bond.

The carboxy group of X5 optionally is esterified with benzyl.

Dipeptide or tripeptide species can be selected on the basis of known transport properties and/or susceptibility to peptidases that can affect transport to intestinal mucosal or other cell types. Dipeptides and tripeptides lacking an c-amino group are transport substrates for the peptide transporter found in brush border membrane of intestinal mucosal cells (Bai, "Pharm Res." 9:969-978 (1992). Transport competent peptides can thus be used to enhance bioavailability of the amidate compounds. Di- or tripeptides having one or more amino acids in the D configuration are also.compatible with peptide transport and can be utilized in the amidate compounds of this invention.

Amino acids in the D configuration can be used to reduce the susceptibility of a di- or tripeptide to hydrolysis by proteases common to the brush border such as aminopeptidase N (EC 3.4.11.2). In addition, di- or tripeptides alternatively are selected on the basis of their relative resistance to hydrolysis by proteases found in the lumen of the intestine. For example, tripeptides or polypeptides lacking asp and/or glu are poor substrates for aminopeptidase A (EC 3.4.11.7), di- or tripeptides lacking amino acid residues on the N-terminal side of hydrophobic amino acids (leu, tyr, phe, val, trp) are poor substrates for endopeptidase 24.11 (EC 3.4.24.11), and peptides lacking a pro residue at the penultimate position at a free carboxyl terminus are poor substrates for carboxypeptidase P (EC 3.4.17). Similar considerations can also be applied to the selection of peptides that are either relatively resistant or relatively susceptible to hydrolysis by cytosolic, renal, hepatic, serum or other peptidases.

Such poorly cleaved polypeptide amidates are immunogens or are useful for bonding to proteins in order to prepare immunogens.

Stereoisomers The compounds of the invention are enriched or resolved optical isomers at any or all asymmetric atoms. For example, the chiral centers apparent from the depictions are provided as the chiral isomers or racemic mixtures. Both racemic and diastereomeric mixtures, as well as the individual optical isomers isolated or synthesized, substantially free of their enantiomeric or diastereomeric partners, are all within the scope of the invention.

One or more of the following enumerated methods are used to prepare -43- WO 98/17647 PCT/US97/18193 the enantiomerically enriched or pure isomers herein. The methods are listed in approximately their order of preference, one ordinarily should employ stereospecific synthesis from chiral precursors before chromatographic resolution before spontaneous crystallization.

Stereospecific synthesis is described below. Methods of this type conveniently are used when the appropriate chiral starting material is available and reaction steps are chosen do not result in undesired racemization at chiral sites. One advantage of stereospecific synthesis is that it does not produce undesired enantiomers that must be removed from the final product, thereby lowering overall synthetic yield. In general, those skilled in the art would understand what starting materials and reaction conditions should be used to obtain the desired enantiomerically enriched or pure isomers by stereospecific synthesis. If an unexpected racemization occurs in a method thought to be stereospecific then one needs only to use one of the following separation methods to obtain the desired product.

If a suitable stereospecific synthesis cannot be empirically designed or determined with routine experimentation then those skilled in the art would turn to other methods. One method of general utility is chromotographic resolution of enantiomers on chiral chromatography resins. These resins are packed in columns, commonly called Pirkle columns, and are commercially available. The columns contain a chiral stationary phase. The racemate is placed in solution and loaded onto the column, and thereafter separated by HPLC. See for example, Proceedings Chromatographic Society International Symposium on Chiral Separations, Sept. 3-4, 1987. Examples of chiral columns that could be used to screen for the optimal separation technique would include Diacel Chriacel OD, Regis Pirkle Covalent Dphenylglycine, Regis Pirkle Type 1A, Astec Cyclobond II, Astec Cyclobond III, Serva Chiral D- DL=Daltosil 100, Bakerbond DNBLeu, Sumipax OA-1000, Merck Cellulose Triacetate column, Astec Cyclobond I-Beta, or Regis Pirkle Covalent D- Naphthylalanine. Not all of these columns are likely to be effective with every racemic mixture. However, those skilled in the art understand that a certain amount of routine screening may be required to identify the most effective stationary phase. When using such columns it is desirable to employ embodiments of the compounds of this invention in which the charges are not neutralized, where acidic functionalities such as carboxyl are not esterified or amidated.

Another method entails converting the enantiomers in the mixture to -44- WO 98/17647 PCT/US97/18193 diastereomers with chiral auxiliaries and then separating the conjugates by ordinary column chromatography. This is a very suitable method, particularly when the embodiment contains free carboxyl, amino or hydroxyl that will form a salt or covalent bond to a chiral auxiliary. Chirally pure amino acids, organic acids or organosulfonic acids are all worthwhile exploring as chiral auxiliaries, all of which are well known in the art. Salts with such auxiliaries can be formed, or they can be covalently (but reversibly) bonded to the functional group. For example, pure D or L amino acids can be used to amidate the carboxyl group of embodiments of this invention and then separated by chromatography.

Enzymatic resolution is another method of potential value. In such methods one prepares covalent derivatives of the enantiomers in the racemic mixture, generally lower alkyl esters (for example of carboxyl), and then exposes the derivative to enzymatic cleavage, generally hydrolysis. For this method to be successful an enzyme must be chosen that is capable of stereospecific cleavage, so it is frequently necessary to routinely screen several enzymes. If esters are to be cleaved, then one selects a group of esterases, phosphatases, and lipases and determines their activity on the derivative.

Typical esterases are from liver, pancreas or other animal organs, and include porcine liver esterase.

If the enantiomeric mixture separates from solution or a melt as a conglomerate, a mixture of enantiomerically-pure crystals, then the crystals can be mechanically separated, thereby producing the enantiomerically enriched preparation. This method, however, is not practical for large scale preparations and is of no value for true racemic compounds.

Asymmetric synthesis is another technique for achieving enantiomeric enrichment. For example, a chiral protecting group is reacted with the group to be protected and the ireaction mixture allowed to equilibrate. If the reaction is enantiomerically specific then the product will be enriched in that enantiomer.

Further guidance in the separation of enantiomeric mixtures can be found, by way of example and not limitation, in "Enantiomers, Racemates, and resolutions", Jean Jacques, Andre Collet, and Samuel H. Wilen (Krieger Publishing Company, Malabar, FL, 1991, ISBN 0-89464-618-4). In particular, Part 2, Resolution of Enantiomer Mixture, pages 217-435; more particularly, section 4, Resolution by Direct Crystallization, pages 217-251, section Formation and Separation of Diastereomers, pages 251-369, section 6, WO 98/17647 PCT/US97/18193 Crystallization-Induced Asymmetric Transformations, pages 369-378, and section 7, Experimental Aspects and Art of Resolutions, pages 378-435; still more particularly, section 5.1.4, Resolution of Alcohols, Transformation of Alcohols into Salt-Forming Derivatives, pages 263-266, section 5.2.3, Covalent Derivatives of Alcohols, Thiols, and Phenols, pages 332-335, section 5.1.1, Resolution of Acids, pages 257-259, section 5.1.2, Resolution of Bases, pages 259-260, section 5.1.3, Resolution of Amino Acids, page 261-263, section 5.2.1, Covalent Derivatives of Acids, page 329, section 5.2.2, Covalent derivatives of Amines, pages 330-331, section 5.2.4, Covalent Derivatives of Aldehydes, Ketones, and Sulfoxides, pages 335-339, and section 5.2.7, Chromatographic Behavior of Covalent Diastereomers, pages 348-354, are cited as examples of the skill of the art.

The compounds of the invention can also exist as tautomeric isomers in certain cases. For example, ene-amine tautomers can exist for imidazole, guanidine, amidine, and tetrazole systems and all their possible tautomeric forms are within the scope of the invention.

Exemplary Enumerated Compounds.

By way of example and not limitation, embodiment compounds are named below in tabular format (Table Generally, each compound is depicted as a substituted nucleus in which the nucleus is designated by capital letter and each substituent is designated in order by lower case letter or number. Table 1 are a schedule of nuclei which differ principally by the position of ring unsaturation and the nature of ring substituents. Each nucleus is given a alphabetical designation from Table 1, and this designation appears first in each compound name. Similarly, Tables 2, 3, 4, and 5 list the selected Q1, Q2, Q3 and Q4 substituents, again by letter or number designation.

Accordingly, each named compound will be depicted by a capital letter designating the nucleus from Table 1, followed by a number designating the Q1 substituent, a lower case letter designating the Q2 substituent, a number designating the Q3 substituent, and a lower case letter or letters designating the Q4 substituent. Thus, the structure below has the name shown.

-46- WO 98/17647 PCTIUS97/18193

H

3 C H 3

C

N

H

3 l 0 0H .C0 2 C H 2

CH

3 A.141 .x.4.i 47- WO 98/17647 WO 98/ 7647PCTIUS97/18193 Table 1

H

Nl Q Q, N 4

.Q

2 0, Q 2 QN N 03

Q

3 Q3 A B

C

H

Q1,N Q2 N Q2 01 j0, Q2 Q4

Q

4 N

Q

4

N

Q

3 Q 3 Q3 D E F 48- WO 98/17647 WO 9817647PCT/US97/18193 Table 2a H-Qj H3CyQl

H

3

C

H

3 C

Q

H

3

C

9 0

H

3 C Qi 13 HO-- 17

H

3 C* Q

OH

21 HO" Q

H

3

C

H

3

C-Q

1 2 >-Qi 6

H

3

C-Q

1 a H3C-' Qi

H

3

C

H

3 C-

*Q

1 0b-Q 10 0

H

3 C

Q

H

3

C

14 HO Q 1 18

OH

H

3 0* Qi 22 HO "-Q 0 26

H

3 C 'YQ 1 0 15

H

3 C

Q

OH

19

HO

H

3 C

Q

0

H

3

C"AQ

12

HO

)rQl 16 HO-- Q

H

3

C

H

3

C

HO 0 0

H

3 C

Q

OH

0 HO Qi 49- WO 98/17647 PCTfUS97/18193 Table 2b 0

H

3 C Q1

OH

29 OHO0 0

HO

H:

3

C

0 HO J Qi

H

2 N- Q' 33

H

3 C

Q

NH

2 37

H

2 N Qi

H

3

C

41 0

NH

2

OH

49

NH

2

H

3 C* Qi 38

H

2 N y Q1 0 42

NH

2 0 46

HO"'Q

HO

50 H-30 Q

NH

2 35

HN

H

3 C7. *01 39 0 H-30 A*

Q

NH

2 43 0

H

2 N

Q

H

3

C

47

OH

H

3 C Qi

OH

51

H

2 N

*Q

1

H

3 0 36

H

3

C

H

2 N-

*Q

0

H

2 N Qi 44 0 0 48

HO

H

3

C*

OH

52 WO 98/17647 PCTIUS97/18 193 Table 2c

HO

HO~aQ 53 OHO0

H

3 C* -)IQI

OH

57

H

2

Q

NH

2 61

H

2

NQ

NH

2 0

H

3 C* Q1

NH

2 69

H

3 0 HO

Q

OH

54 0 O H 58

HN)

62

H

3

C

H

2 0

NH

2 66 0

H

2 N Qi

NH

2 70

HO-

HO

55 OHO0 59

NH

2

H

3 Q 1

NH

2 63

H

2 N Q 1 HNr 67 0 HO-- .Q

OH

56

HO

HO'

H

2

N

H

3 C

*-IQ

NH

2 64 0

H

2

N-AQ

NH

2 68 I,

H

2 N Q1 72 HO-" Q 1

NH

2 73

H

2 WN

Q

OH

74 75

OH

H

3 C* -I Qi

NH

2 76 -51- WO 98/17647 PTU9/89 PCTIUS97/18193 Table 2d

NH

2

OH

77

H

3

C

OH

81 0 HO--I Q

NH

2 HO-- Q

HO

H

3 C

*I*Q

NH

2 78

H

2 N.7 0 82

H

2

N

H

3 C

Q

OH

79 HO

Q

H

3

C

NH

2 HO:rQ H N

H

2 N-

Q

OH

86 H2N,)Qi 0

NH

H

2 N"

Q

94

H

H

3 C *Q*

NH

2 87 0

H

2 NJ, Qi 91 NHO0

H

2

N)-)"AQ

1 95

NH

2 0

H

3 C* Qi

OH

88 O 0

H

2 NJ QiAo 92 H2N >,Qi

NH

93

H

2 N J Q1 96

H

3 C 0 e* 0 97 52- WO 98/17647 WO 9817647PCTIUS97/18 193 Table 2e

OH

3 100 Q 1 CH3 101

H

3 0 OH 3 102 Q1i

OH

3 104 Qi

O,-YH

3

OH

3 108

H

3 0 OH 3 112 Qi N OH 3

OH

3 116 QiN_,-O,,H 3

OH

3 105

OH

3 Ql---OH 3

OH

3 109

OH

3 106

OH

3

OH

3

OH

3 110

OH

3 Qi _,CK~H 3 107

H

3 0 OH 3 Q1..KH3 ill

OH

3 Q H 3

Q

113

OH

3 Qi O H 3 117

OH

3 114

OH

3 118

OH

3 115 3 OH 3 119 Qi- OH 3 CH3 120

OH

3 121 Qj-, OH 3

OH

3 122 Qi C~~H 3 123 53- WO 98/1 7647 PCTIUS97/18193 Table 2f Q1> ~CH 3

H

3

CYOH

3 124

QH

3 Q i--OH3 CH3 128

H

3 0 OH 3 Qi X

H

OH

3 132 O"

H

3

Q..CH

136

OH

3

OH

3 125

OH

3

OH

3 129

OH

3 Q O- H 3

H

3 O OH 3 133

H

3 0 OH 3 137

OH

3 Qi O1C H 3 141

CH

3 126 Qi ,H 3

OH

3

OH

3 130

OH

3 Qj1,Q',OH 3 CH3 127

H

3 0 OH 3

OH

3 131

OH

3 Q O-I- H 3

OH

3 135

OH

3 Q1, OYH 3

OH

3 139 H3 OH: 134

OH

3 Qi,, O H 3

OH

3 138

H

3

CH

3 140 Qi

H

142 Q1,

OH

3 143 CH3 144

OH

3 145 146 54- WO 98/17647 PCTIUS97/18193 Table 2g

H

3

OH

3 147 0 i~C-H 3 150 CH3 148 3

OH

3 151

OH

3

OH

3 149 Qi O7-- H 3

OH

3 152

C'H

3 153 Qi3 O1H 3 O H 3

H

3 O OH 3

OH

3

Q

1

H

3 01'-CH

OH

3 OH 3

QH

3

H

Q1jA'-CH 3 OH 3

CH

3 OH 3

CH

3

CH

3 159

OH

3

OH

3 160

OH

3

OH

3

OH

3

OH

OH

3

OH

H

3 3 Ci OH QiO 3

OH

3 OH 3

OH

3 Qjj:

OH

3 165

I-OIH

3 aQ1' CH3 166

H

3 0 CH 3

OH

3 Q C3Qi O H 3

OH

3 WO 98/17647 PTU9/89 PCTfUS97/18193 Table 2h

CH

3

OH

3 169

CH

3

OH

3

OH

3 170

CH

3

Q

6H3

OH

3

OH

3 Q1i-YACH3 Qi' r -OH 3

OH

3 173 Q OH 3 Qi OH 3 3

H

3 O OH 3

OH

3

H

OH

3 Qi OH 3

OH

3 176 Qi" OH 3

OCH

3 177 Qi,

H

3 0 I'-CH 3 181

OH

3

OH

3 185

H

3

CO-.CH

3 189 Qi

H

H

3 0 OH 3 178

OH

3 Qi1

OH

3

OH

3 182

H

3 0 OH 3 179

OH

3 OH3 183

H

3 0 OCH 3 180 Qi H 3

OH

3 184

OH

3 186 190 Qi H 3

OH

3 187

OH

3 Q1 OC H 3

CH

3 191

H

3 0 OCH 3 Qj 1 N IXJH 3 188

OH

3 Qji OZH 3 CH3 192 56- WO 98/17647 WO 9817647PCTIUS97/18193 Table 2i

CH

3 Q1

OH

3

H

3 C OH 3 193

H

3 0 CH 3

CH

3 197

OH

3 Qli, O rH 3

OH

3

OH

3 201

OH

3

H

3

C

205 Qi OH 3

H

3

C)COH

3 194

CH

3 Ql,,Y- 1 yH3

OH

3

OH

3 198

H

3 0

Q,

202

CH

3 Qi nH 3

C

206

H

3 0 O H 3 195

OH

3 Qj,, OH 3

OH

3

OH

3 199

O

3

H

3 0 203

H

3

C

CH

3 207

H

3 C

OH

3 Qi 211

H

3 0 OH 3 Qi

OCH

3

OH

3 196

OH

3

OH

3 200

OH

3 H0 204

H

3

C

OH

3 208

H

3 0

OH

3 Qi 212 Ql 3 0CH 209

H

3 0 Qi

"'H

3 210

OH

3

H

3

C

H

3

C

OH3 215

H

3

C

Qi

H

3 0 OH 3 216

'CH

3 57- WO 98/17647 WO 9817647PCTIUS97/18193 Table 2j

OH

3 0i

CH

3

CH

3 217

H

3 c Q1

OH

3

CH

3 221

H

3

C

Qi-

OH

3

OH

3 225

H

3 C OH 3 Qi-

CH

3 229

OH

3

CH

3

OH

3 218

H

3 0

OH

3

OH

3

OH

3

OH

3 219 QiI

OH

3

OH

3 222

CH

3 Qi*-

OH

3

OH

3 220

H

3

C

OH

3

OH

3 224

H

3 0 Qil'D

'H

OH

3 228

I-OIH

3

OH

3 232

H

3

C

OH

3

OH

3 226

H

3 O H Qi". H Q

OH

3 230

H

3

C

OH

3 227

OH

3 231

H

3 0 OH 3

OH

3 233 Qi3

OH

3

OH

3 237

OH

3

OH

3

OH

3 234

OH

3

OH

3

OH

3 238

OH

3

OH

3

OH

3 235

OH

3

OH

3

OH

3 239

OH

3

OH

3

OH

3 236

OH

3

CH

3

OH

3 240 vl 58- WO 98/17647 Table 2k PCTIUS97/18193

OH

3

CH

3

CH

3

QH

3 Qij"*

H

3

C

OH

3

OH

3

H

3

C

OH

3 245

H

3

C

Qi 'H

OH

3 249

H

3 CO OH 3 253

H

3

O

Qi

H

3 0 OH 3 246

H

3

C

0

"CH

3

OH

3 250

H

3 O H

OH

3 254

H

3

O

OH

3

OH

3 247

H

3

CH:

OH

3 251

H

3 0

OHCH

3 248 3 H 3 0 OH 3

OH

3 252 Qi-*

H

3 0

OH

3

H

3 0 255 256 Ql'**'OH 3 1 -CH

OH

3 ,CH Q1 3

H

3 0 OH 3 259 257

H

3 0 OH 3 260

OH

3

OH

3 Qi 264 261

H

3 0 '-OH 3 262

OH

3

OH

3

OH

3 263 59- WO 98/17647 WO 9817647PCTIUS97/18193 Table 21

CH

3

CH

3 Qi

OH

3 265

OH

3

CH

3 Q i OH3 266

OH

3

H

3 0 O H 3 267

OH

3 Qi---

H

3

O~CH

3 268

OH

3 Qi OH 3

OH

3 272

CH

3 OH 3

OH

3

H

3 C' OH 3 269 270

H

3 0 OH 3 Qi

H

3 0 274

H

3

C--OH

3 Q' n

H

3

C

275

OH

3 276

H

3 C H 3

H

3

C

280 277 278 279

H

3 0 ,,-CH 3

H

3

O

281 282

I-IH

3 Q OH 3

H

3

C

283

I--CH

3

H

3 O OH 3 287

OH

3

H

3 C OH 3 286

H

3

C'

Q 3 OCH 3

H

3

OH

3 288 WO 98/1 7647 Table 2m PCTIUS97/18193

H

3 C OH 3 289

O-H

3 Q l Y O H 3

CH

3 293 Ol' H 3

OH

3

OH

3 297

H

3 0 OH 3 Qi O H 3

OH

3 301 QV

OCH

3 OH CH 3 290 Q3

H

3 O H 3 294

OH

3

OH

3

OH

3

OH

3 298 Q H34r-OH 3 0H3 291 H3

OH

OH

3 295

,.OH

3 Qli'y,-K<0H 3

OH

3

OH

3 299

OH

3 01 OH 3

OH

3 292

H

3 O ,%-OH 3 Qji O"H 3

OH

3 296 I-IH 3 O Y H 3

OH

3

OH

3 300

OH

3

OH

3 Qi H 3

H

3 OC OH 303

OH

3

Q

3 0 OH 3 304

H

3

H

3 OC

OH

3 305 Ql,-,,-OH 3

OH

3

H

3 0

OH

3 309

H

3 0 0HJ0H3 306 Q1 OH 3

H

3 0 O'H 3 310 Qi NfyH3

H

3 C- 0H 3 0H3 307 Qli O-YH 3

H

3 CO,7 OH 3 311 QA IH 3

H

3 0

OH

3 308

OH

3 Qi""

OH

3

H

3 0 OH 3 312 -61- WO 98/17647 WO 9817647PCTIUS97/18193 Table 2n

OH

3

CH

3 CH 3

OH

3 Qj-V C3Qi O H 3

OH

3 CH: 3 CH3 315

OH

3 O H 3

OH

3

OH

3 319

H

3 0 0H 3 0H 3 Q1-&KA OH3 317

OH

3 Qi

CH

3

OH

3

OH

3 321

OH

3 Q1--j--H

OH

3

OH

3 318

CH

3

OH

3

OH

3 CH3 316

OH

3 Qi Y

OH

3

OH

3

OH

3 320

OH

3

OH

3 Qi O-i H 3

OH

3 324

OH

3

OH

3 OH 3

OH

3 Q1 YYAO Q1LO

OH

3 OH 3

OH

3

OH

3 Qi"' O H 3 CH3 325

H

3 0 OH 3 Qi

CH

3

OH

3

OH

3 329

OH

3

H

3 0 OH 3 326

H

3 0 OH 3 Qi-

OH

3

OH

3

OH

3 330 Qi)>H 3

H

3 C CH PH 3 327

OH

3

OH

3

OH

3 331

H

3 QH3H 328

OH

3

OH

3

H

332

OH

3 01 .OH 3

OH

3

OH

3 333

OH

3

OH

3 334

OH

3 336 62- WO 98/17647 WO 98/ 7647PCT/US97/18193 Table 2o

H

3 C<I-OH3

OH

3 337 Qi OH 3

H

3

C-'O-H

3

OH

3 341

OH

3 338

OH

3 Q1

OH

3

H

3 0 OIH 3

OH

3 342

H

3 0 OH 3 01 O H 3

H

3 C OH 3 346 O3 H 3 H3Oi! OH 3

Q

1 C- H 3

OH

3 350

OH

3

H

3 OQ11

OH

3 339

OH

3 Ql '-OH 3

H

3 C<I OH 3

OH

3 343 Q 1NH43

H

3 0 OH 3

OH

3 347

OH

3

H

3

OH

3 351 Q1 OH 3

H

3 O H 3 O

H

3 340 Q1H 3 0

OH

3 O H 3

OH

3 344

H

3 0\ OH 3 O4 H 3

H

3 0 OH 3 348 O3

H

3 Qj--OH 3 CH3 352 01H 3 0

OH

3

OH

3

COH

3

OH

3 345 H3

H

3

OH

3

OH

3 349

H

3 0 OH 3

*Q

1 OH 3

OH

3 353

H

3 0 OH 3 Q1

OH

3

OH

3 357

H

3 0 OH 3

OH

3

OH

3

CH

3

OH

3 QJII- OH 3 Q1,I OH 3

OH

3 1 OHCH 3 355

H

3 0 OH 3

OH

3

OH

358

H

3 0 Qic~ 359

H

3 0

OH

3 360 63- WO 98/17647 Table 2 p PCTIUS97/18193

H

3 0' 361 362 363 CH3

H

3 C:

OH

3

OH

3 364 3 Q 1 C H 3

OH

3

OH

3

CH

3

CH

3 Qi CH 3

CH

3

OH

3 365

OH

3

CH

3 C H 3

OH

3 369

OH

3

OH,

3

H

3 0 OH 3

OH

3 Q* OH 3

H

3 O

OH

3 370

H

3

O

Qil,, 371 Q1 OH

H

3 375

H

3 0

OH

3 372

OH

3 3Q1~ OH 3

H

3 O OH 3

OH

3 376

.CH

3

'CH

3

OH

3

OH

3 Qi

H

3

OH

3

OH

3 377

OH

3

H

3

OH

3 381

CH

3

H

3

C

O1 H 3

H

3 C

OH

3

H

3 0 OH 3 379

H

3

C

Q

1

OH

3

H

3 O OH 3

H

3 0

OH

3

OH

3 380

H

3

C

OH

3 384

H

3

O

Qil -64- WO 98/1 7647 PCTIUS97/18193 Table 2q

H

3 0

OH

3 QiQ* O H 3

OH

3 386 01 1CH 3

CH

3 387

H

3

H

3

C

391

OH

3

OH

3

OH

3

OH

3

OH

3

OH

3 388

H

3

C

Qi-

OH

3 392 389 390

H

3 0 Q V

OH

3 394

OH

3

OH

3 396

'OH

3 393

'CH

3

OH

3

OH

3

OH

3 01---OH 3

OH

3

OH

3 397

H

3 0 OH 3 Q1 OH 3

H

3 0 OH 3

OH

3

H

3

C

399 398 401

OH

3 Qi1'o 402 Q -y 0

OH

3

H

3

C

CH3 Qi

N.

OH

3 405 WO 98/17647 WO 98/ 7647PCTIUS97/18193 Table 2r

OH

3 409

OH

3

OH

3 410

CH

3 01 O H 3 411 OlIH 3 412 Ql' CH3 Q" rOH 3 417 Qi C H 3

OH

3 421

OH

3 Qi1 418

H

3 C OH 3 422 419

OH

3 423 ai,,,OH 3

OH

3 420

OH

3

OH:

3 424

OH

3 425

OH

3 429 426 Q 1 '2CH 3 427 QiI- H'*3

OH

3 428 66- WO 98/17647 WO 9817647PCT/US97I18 193 Table 2s

OH

3 433

OH

3 437 CH3 434

OH

3 438 H3O\ 435 439

OH

3 436

OH

3 440

OH

3 441 445 442 r O. H 3 446 Q' H 3

"'OH

3 443 447 444 C H 3 448 449

OH

3

OH

3 450

OH

3 452

QN,,LJ

453 454

OH

3 4 455

OH

3 456 67- WO 98/17647 WO 98/ 7647PCTIUS97/18193 Table 2t 457 461 Qi 465 458 Q i 462 Qjv--CH 3 459 Qi

OH

3 463 460 464 466 Q1,iH 467 468 Qi N~ \H 3 469 Q-7

OH

3 473 Q 7VCH 470

OH

3 QiY

OH

3 474 471

.CH

3

OH

3 475 Q14j-7H 3

OH

3 472 Qi

OH

3 476

CQH

3 CH3 477

OH

3 478

OH

3 O\7-'VH 3 479 480 68- WO 98/17647 Table 2u PCTIUS97/18193

"'OH

3

CH

3 481

X

3 H 3 485

CH

3 Q1,

LH

Qi3 483 484

H

3 C OH 3 486

CH

3

H

3 C

OH

3 487

OH

3

H

3 C

OH

3 488

OH

3 492 "-CH 3

H

3 C OH 3 489

HCH

H3C 0 1 490 ThH 3

CH,

oH 495 496 497 501 498 0 1 4. CH 3 502 Qi OHH 3 499 Q1'

:"CH

3

OH

3 503 Q 2 2 H 3 500

OH

3 504 69- WO 98/17647 Table 2v PCT[US97/18193 CH3 509 H3 513 A

O'H

3 506

OH

3 Qim4'3

OH

3

OH

3

'-OCH

3 508 Q i il

H

510

OH

3 512

H

3

C

OH

3

QI

516

,CH

3 514

OH

3 515

H

3 0

OCH

3 517

Q

1 YC

OH

3 521

OH

3 525

H

3

C

518

OH

3 522

OH

3 526

H

3 0

H

519 Qj-,"OH 3 523 Qjv,,- L

I

CH3 527 Qi 520

OH

3 524

OH

3 QlNf 528 WO 98/17647 Table 2w PCT/US97/18193 C H 3 529

CH

3

Q

1 17

H

3

C

533 537

CH

3

H

3 Cd 530 CH3

CH

3 Q1mK

H

3 Ce 532 QijK;- CH 3 H3C! 534 01<H 3 538 Q1 77-0 11CH 3

H

3

C

535 CH 3 539

H

3 C H 536 Q1mK2u CH 3 540

OH

3 Qlmi -IH 541

QH

3 542 Oil..r .H 3 543

QH

3 Qli O -"OIH 3 544 545 oCH 3 549 Q1 Z",OH 3 546 548

I-OIH

3 550 551

OH

3 552 71- WO 98/17647 WO 9817647PCTIUS97/18193 Table 2x Qi1-' 553 557 0 1

H

3 554 558

H

3 0 555

CH

3 559

H

3

C

556

OH

3 560 561

OH

3 565 562

CH

3 566 563 Q pH 3 564

OH

3

OH

3 569 QlN Q 6H3 570

OH

3 571 Qi-" OH 3 572 QN1&, CH Qi,,7&I"H 3 QJc7...IOH 3 575 Q16OH 3 576 573 72- WO 98/17647 WO 98/ 7647PCTIUS97/18193 Table 2 y 01 OH 3 577

Q

1

.,CH

3

CH

3 581

Q

1 1

OH

3 OH3 578 Q1OH 3

OH

3 582 Q H 3 0 .%xH 579 Qj CH 3

OH

3 583

OH

3 Q, .H3 580 O1H3

O'H

3 584

OH

3 588

OH

3 Qli Jj

H

3 589 593 KII<- O44"H 3 590

OH

3 591 0 O

H

3 592

OH

3 596

CH

3 597

OH

3 OH 3 600 73- WO 98/17647 PTU9/89 PCT/US97/18193 Table 2z

CH

3 Qi O H 3 601 602 605

CH

3 606 \CJ dCH 3 603 604 Q oQ i CH3

CH

3 '607 608

OH

3 609

CH

3

'-CH

3 QH3 612 NJIzH 3 Q1

I

3

OH

3 615 616 613

Q<

O3--

H

3 618 H3 O

H

3 619

OH

3

H

3

C

620 617

OH

3

H

3

C

621

OH

3

H

3

C

623 622 74- WO 98/17647 PTU9/89 PCT/US97/18193 Table aa CH3

H

3 625 f~CH3

OH

3 629 626

OH

3 H 3 C OH 3 627

OH

3 630

OH

3 628

CH

3 631 634

OH

3 632 K~r- OH 3 633 jo CH3 Q i 637 636 639

H

3

C

643 640

OH

3 644 Qi 641

OH

3 645 638 642 Qi

H

3

C

646 WO 98/17647 WO 9817647PCT/US97/18193 Table 2ab 647 Qi 651 655 659

OH

3 663 Qi--o

OH

3

CH

3 648

OH

3 Qi" 652

OH

3 Q 1 656

OH

3 Qi- 660 CH3

OH

3 649 650 Qi OH3 653 Qi OH 3 657

OH

3 654

OH

3 658 Q1IO Qi" o Ql"" I N

QN

6H 3

H

3 OC H 3 C0 76- WO 98/17647 Table 2ac PCTIUS97/18193

OH

3 704 Q1

COH

3 705 Q1

OH

3 707 706 Q1N

OH

3 708 Q N NH 2

OH

3

NH

2 NH 2 QQ 1 NH 2

OH

3

OH

3 710 711 OH Op OH

OH

3 H 713 714 Qi N'OH

OH

3 715 01 OCH 3

OH

3

NOH

OH

3 716

"CH

3 717 Qi N OOH 3

OH

3 720 >F Qj 1

CF

OH

3 724

OH

3 721 722 77- WO 98/17647 Table 3a PCTIUS97/18193

OH

a

O-H

3 b yOH 0 c 0 2 O- 0 H 3 0 d Q 2

SOH

e r(OH

Q

2 0 Q2 .1'OH g 0 11

SO

h o

Q

2 N~ x1-Ol-, H 3

Q

2

),N

H OH 3

H

Q

2 i,:,NyC H 3 0 0 m 0~N

OH

0 z00H

-OH

3 p 0

K\OH

(OH

0 0 -OH 3 r 0O-OH 3 78- WO 98/17647 WO 9817647PCTIUS97/18193 Table 3b

H

I,

N-N

0 2

S

H

I

N

H

CH

3 Q2S Y 0 S

O

U

H CH 3

Q

2 s N -r 00 v H

CH

3 Q2s

C~N

1

CH

0 ~0 w Q2 #0o 0

H

3

C)

x Q2 .0 CH3 y

Q

2 #=0 0 CH 3 z

Q

2 0CH 3

A

Q

2 0

OH

3

B

0 OiH 3

C

Q

2 COH3

H

3

C

D

Q0 0 L CH3

E

79- WO 98/17647 PCTIUS97/18193 Table 4a 0 3

-OH

1 Q-N0 2 Q3. NH 2

NH

2

OH

3 03 A NH 2

Q

3

NH

2 4 Q 3

H

2

N

8 Q3

NH

2

OH

3 9

H

H

3 C NyNH Q3NH 2 13

NH

NH

2 03 17

NH

2 Q3 J

NH

2 21

NH

2

OH

3 10

NH

Q3 ,KNH 2 14

H

Q3-'N yNH

NH

2

NH

r~NH 2 03 15

H

r N yNH 03 NH 2 12 03 NH

QANH

2 16

OH

3

NH

2

Q

3

NH

NH

2 O H 3 Q3'

NH

2 24 Q y

NH

NH

2 18 03-'

NH

2

NH

2 22

OH

3 03-- NH 2

NH

19

NH

2 Q3" NH 2 23 WO 98/17647 PCTIUS97/18193 Table 4b

N

2 Q3' 7NH 2 03- )-OH

NH

2 29

OH

NH

2 26

OH

Q3~ NH 2 30

NH

2

,-OH

27

NH

2 Q3 OH 31 03 NH 2

OH

28

OH

OH

3

NH

2 32

NH

2 C OH 3

OH

33 Q3"

NH

2 0 3 -CN Q

'KNH

2 N

NH

2

H

37 Q3o'N yNH 2

OH

3 38 Q N YNH 2

SOH

3 39 Q3

CN

IIIN

NH

2 41 Q3 HN y N** 42 Q3

N..

43 81- WO 98/17647 WO 98/ 7647PCTJIJS97/18193 Table 4c

H

Q3' N %-rNCH 3

NH

2 44

H

Q3'"N-,,CH 3 47 Q3"N yNCH 2

CH

3

NH

2

H

46

H

Q 3-1N yCH 3

H

3

C

49 48

H

Q3- KI

OH

H

I

Q3" N

NH

2 51

CH

3 Q3-NCH 3 52 rCH 3 53 82- WO 98/17647 WO 9817647PCTIUS97/18193 Table H-Q0 4 a

H

3

C-Q

4 b

H

3 C Q 4 c rQ 4

OH

3 d

OH

3 't,0 e 0

H

3 O J Q 4 f 0 Q 4

OH

3 0

H

3 C

Q

OH

3

H

H3C NQ4 0

CH

3 H3O y0.Q4

OH

3 OH

H

H

3 C5 N, Q4 IHCy 0 0

F

2 HO N, .Q4 F3O N, Q4 0 0 CH3

H

3

OC

1 y N, 0 4 0 p OH H 3 0 q H

OH

3

OH

3

H

3 C .N 'Q4

H

3 0 N, Q4

OH

3 0

OH

3 CH 3

FH

2 O N,.Q4

F

2 HC

,Q

0 0 83- WO 98/17647 WO 9817647PCTIUS97/18193 Table

?OH

3

F

3 C y N,

Q

0

V

OH

3

H

3 s

NQ

0 0 z

H

N

H

ad

H

H

3 C, s

NQ

0 0 4 w

OH

3

OH

3

Q

4 aa

CH

3

H

S A Q 4 x

OH

3

CH

3 H0 0~Q ab

OH

3 H

H

3 C I S,,N Q 4 0 y

H

I H ac

NNQ

4

H

H

ag

H

ah

H

).SQ

4 aj N 1

Q

4 Ak H CH,3 I

I

N

N,

ic /j Q4

N

OH

3

OH

3 ao -84- WO 98/17647 WO 98/ 7647PCTIUS97/18193 Table KKN" Q4 ap

H

2

N-Q

4 at

OH

3

N

5 aq

H

H3"N-0 4 au

OH

3 Nr

I

ar

H

3

C\

H3 C/

-Q

av

OH

3

Q

4 as

H

H3-/N- Q4 aw

H

3 C" ,Q ax 0

H

3 O 0' Q4 bb ay 0

OH

3 bc

H

3 C. SQ 4 az 0

H

3 C A 0

IQ

4

OH

3 bd H3CN-I-SQ4 ba be 0 11 bf cN-Q4 bi

N

bh 0 N-Q4 o bj

Q

4

IN

N

bk WO 98/1 7647 PCTIUS97/18193 Table 6 Exemplary Enumerated Compounds A.3.a.4.i; A.4.a.4.i; A.7.a.4.i; A.9.a.4.i; A.103.a.4.i; A.106.a.4.i; A.107.a.4.i; A.108.a.4.i; A.11 1.a.4.i; A.114.a.4.i; A.117.a.4.i; A.118.a.4.i; A.119.a.4.i; A.120.a.4.i; A.121.a.4.i; A.137.a.4.i; A.138.a.4.i; A.139.a.4.i; A.140.a.4.i; A.141.a.4.i; A.142.a.4.i; A.145.a.4.i; A.146.a.4.i; A.147.a.4.i; A.148.a.4.i; A.149.a.4.i; A.150.a.4.i; A.151.a.4.i; A.165.a.4.i; A.166.a.4.i; A.167.a.4.i; A.168.a.4.i; A.169.a.4.i; A.170.a.4.i; A.171.a.4.i; A.172.a.4.i; A.173.a.4.i; A.174.a.4.i; A.175.a.4.i; A.176.a.4.i; A.188.a.4.i; A.189.a.4.i; A.190.a.4.i; A.196.a.4.i; A.202.a.4.i; A.205.a.4.i; A.206.a.4.i; A.207.a.4.i; A.208.a.4.i; A.209.a.4.i; A.210.a.4.i; A.211.a.4.i; A.212.a.4.i; A.213.a.4.i; A.700.a.4.i; A.701.a.4.i; A.702.a.4.i; A.703.a.4.i; A.704.a.4.i; A.705.a.4.i; A.706.a.4.i; A.707.a.4.i; A.708.a.4.i; A.709.a.4.i; A.710.a.4.i; A.711.a.4.i; A.712.a.4.i; A.713.a.4.i; A.714.a.4.i; A.715.a.4.i; A.716.a.4.i; A.717.a.4.i; A.718.a.4.i; A.719.a.4.i; A.720.a.4.i; A.721.a.4.i; A.722.a.4.i; A.723.a.4.i; A 7A.A.A A A. 107.a .4.o; A.119.a.4.o; A.140.a.4.o; A.148.a.4.o; A.167.a.4.o; A. 173.a o; A.190.a.4.o; A.208.a.4.o; A.700.a.4.o; A.706.a.4.o; A.712.a.4.o; A.718.a.4.o; A.724.a.4.o; A.108~; a.4.o; A. A.17.a.4.o; A.18.a.4.o; A.10.a.4.o; A.1211.a.4.o; A.137.a.4.o; .A.138.a.4.o; A.139.a.4.o; A.141L.a.4.c A.149.a.4.c A. 168. c A.1I74.a .4.c A.196.a.4.c A.209.a.4.c A.701 .a.4.o A.707.a.4.o A.713.a.4.c A.719.a.4.o A. 172.b.4.i; ;A.142.a.4.o; A.145.a.4.o; A.146.a.4.o; A.147.a.4.o; ;A.150.a.4.o; A.151.a.4.o; A.165.a.4.o; A.166.a.4.o; 'A.169.a.4.o; A.170.a.4.o; A.171.a.4.o; A.172.a.4.o; ~A.202.a.4.o; A.205.a.4.o; A.206.a.4.o; A.207.a.4.o; 'A.20.a.4.o; A.211.a.4.o; A.212.a.4.o; A.213.a.4.o; iA.10.a.4.o; A.703.a.4.o; A.704.a.4.o; A.705.a.4.o; ;A.708.a.4.o; A.709.a.4.o; A.70.a.4.o; A.711.a.4.o; ;A.714.a.4.o; A.715.a.4.o; A.716.a.4.o; A.717.a.4.o; 'A.720.a.4.o; A.7215.a.4.o; A.722.a.4.o; A.723.a.4.o; A.173.b.4.; A18b4 A.196.b.4.i; A.202.b.4.i; A.205.b.4.i; A.206.b.4.i; A.207.b.4.i; A.10.b.4.i; A.21 1.b.4.i; A.212.b.4.i; A.213.b.4.i; A.27.b.4.i; A.10.b.4.i; A.704.b.4.i; A.705.b.4.i; A.706.b.4.i; A.707.b.4.i; A.710.b.4.i; A.71 1.b.4.i; A.712.b.4.i; A.713.b.4.i; A.714.b.4.i; A.717.b.4.i; A.718.b.4.i; A.719.b.4.i; A.720.b.4.i; A.7214.b.4.i; A.724.b.4.i; A.3.b.4.o; A.4.b.4.o; A.7.b.4.o; A.9.b.4.o! A.189.b.4.i; A.190.b.4.i; A.208.b.4.i; A.209.b.4.i; A.701.b.4.i; A.702.b.4.i; A.708.b.4.i; A.709.b.4.i; A.715-b.4.i; A.716.b.4.i; A.722.b.4.i; A.723.b.4.i; A.1IIJ.b.4.o; A.106.b.4.o; A.107.b.4.o; A.108.b.4.o; A.1 11.b.4.o; A.1 14.b.4.o; A.117.b.4.o; A.118.b.4.o; A.119.b.4.o; A.120.b.4.o; A.121.b.4.o; A.137.b.4.o; A.138.b.4.o; A.139.b.4.o; A.140.b.4.o; A.141 A.142.b.4.o; A.145.b.4.o; A *146.b.4.o; A.147.b.4.o; A.148.b.4.o; A.149.b.4.o; A.150.b.4.o; A.151 .b.4.o; A.165.b.4.o; A.166.b.4.o; A.167.b.4.o; A. 168.b.4.o; A.169.b.4.o; A.170.b.4.o; A.171.b.4.o; A.172.b.4.o; A.173.b.4.o; A.17.4.b.4.o; A.175.b.4.o; A.176.b.4.o; A.188.b.4.o; A.189.b.4.o; A.190.b.4.o; A.196.b.4.o; A *202.b.4.o; A.205.b.4.o; A.206.b.4.o; A.207.b.4.o; A.208.b.4.o; A.209.b.4.o; A.210.b.4.o; A.211.b.4.o; A.212.b.4.o; A.213.b.4.o; A.700.b.4.o; A.701.b.4.o; A.702.b.4.o; A.703.b.4.o; A.704.b.4.o; A.705.b.4.o; A.706.b.4.o; A.707.b.4.o; A.708.b.4.o; A.709.b.4.o; A'*710.b.4.o; A.711.b.4.o; A.712.b.4.o; A.713.b.4.o; A.714.b.4.o; A.715.b.4.o; A.716.b.4.o; A.717.b.4.o; A.718.b.4.o; A.719.b.4.o; A.720.b.4.o; A.721 .b.4.o; A.722.b.4.o; A.723.b.4.o; A.724.b.4.o; A.172.x.4.i; A.173.x.4.i; A.174.x.4.i; A.175.x.4.i; A.176.x.4.i; A.188.x.4.i; A.189.x.4.i; A.190.X.4.i; A. 196.x.4.i; A.202.x.4.i; A.205.x.4.i; A.206.x.4.i; A.207.x.4.i; A.208.x.4.i; A.209.x.4.i; A.210.x.4.i; A.211.x.4.i; A.212.x.4.i; A.213.x.4.i; A.700.x.4.i; A.701 A.702.X.4.i; A.703.x.4.i; A.704.x.4.i; A.705.x.4.i; A.706.x.4i; A.707.x.4.i; A.708.x.4.i; A.709.x.4.i; A.710.x.4.i; A.711.x.4.i; A.712.x.4.i; A.7-13.x.4.i; A.714.x.4.i; A.715.x.4.i; A.716.x.4.i; A.717.x.4.i; A.718.x.4.i; A.719.x.4.i; A.720.x.4.i; A.721.x.4.i; A.722.x.4.i; A.723.x.4.i; A.724.x.4.i; A.3.x.4.o; A.4.x.4.o; A.7.x.4.o; A.9.x.4.o; A.103.x.4.o; A-106.x.4.o; A.107.x.4.o; A. l08.x.4.o; A.1 11 .x.4.o; A.114.x.4.o; A.117.x.4.o; A.118.x.4.o; A.119.x.4.o; A.120.x.4.o; A.121.x.4.o; A.137.x.4.o; A.138.x.4.o; A.139.x.4.o; A.140.x.4.o; A.141 A.142.x.4.o; A.145.x.4.o; A.146.x.4.o; A.147.x.4.o; A.148.x.4.o; A.149.x.4.o; A.150.x.4.o; 86- WO 98/17647 WO 98/ 7647PCTIUS97/18193 A.170.x.4o; A.171.x.4.o; A.172.x.4.o; A.17.x.4.o; A.174.x.4.o; A.175.x.4.o; A.176.x.4.o; A.188.x.4.o; A.189.x.4.o; A.190.x.4.o; A.196.x.4.o; A.202.x.4.o; A.205.x.4.o; A.206.x.4.o; A.207.x.4.o; A.0.x.4.o; A.096.x.4.o; A.20.x.4.o; A.201.x.4.o; A.212.x.4.o; A.213.x.4.o; A.700.x.4.o; A.701.x.4.o; A.10.x.4.o; A.703.x.4.o; A.704.x.4.o; A.705.x.4.o; A.706.x.4.o; A.707.x.4.o; A.708.x.4.o; A.709.x.4.o; A.70.x.4.o; A.711.x.4.o; A.712.x.4.o; A.713.x.4.o; A.714.x.4.o; A.715.x.4.o; A.716.x.4.o; A.717.x.4.o; A.718.x.4.0; A.719.x.4.o; A.720.x.4.o; A.721 A.722.x.4.o; A.723.x.4.o; A.724.x.4.o; A.172.y.4.i; A.173.y.4.i; A.174.y.4.i; A.175.y.4.i; A.176.y.4.i; A.188.y.4.i; A.189.y.4.i; A.190.y.4.i; A.196.y.4.i; A.202.y.4.i; A.205.y.4.i; A.206.y.4.i; A.207.y.4.i; A.208.y.4.i; A.209.y.4.i; A.210.y.4.i; A.211.y.4.i; A.212.y.4.i; A.213.y.4.i; A.700.y.4.i; A.701 A.702.y.4.i; A.703.y.4.i; A.704.y.4.i; A.705.y.4.i; A.706.y.4.i; A.707.y.4.i; A.708.y.4.i; A.709.y.4.i; A.710.y.4.i; A.71 1.y.4.i; A.712.y.4.i; A.713.y.4.i; A.714.y.4.i; A.715.y.4.i; A.716.y.4.i; A.71 A.718.y.4.i; A.719.y.4.i; A.720.y.4.i; A.721.y.4.i; A.722.y.4.i; A.723.y.4.i;.A.724.y.4.i; A.3.y.4.o; A.4.y.4.o; A.7.y.4.o; A.9.y.4.o; A.103.y.4.o; A.1 O6.y.4.o;. 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B.710.a.54.o; B.711I.a.54.o; B.712.a.54.

B.716.a.54.o; B.717.a.54.o; B.718.a.54.

4.0; A.121.A.4.o; A.137.A.4.o; A.138.A.4.o; 4.0; A.142.A.4.o; A.145.A.4.o; A.146.A.4.o; 4.o; A.150.A.4.o; A.151.A.4.o; A.165.A.4.o; 4-o; A.169.A.4.o; A.170.A.4.o; A.171.A.4.o; t-o; A.175.A.4.o; A.176.A.4.o; A.188.A.4.o; Lo; A.202.A.4.o; A.205.A.4.o; A.206.A.4.o; L.o; A.210.A.4.o; A.211.A.4.o; A.212.A.4.o; Lo; A.702.A.4.o; A.703.A.4.o; A.704.A.4.o; Lo; A.708.A.4.o; A.709.A.4.o; A.710.A.4.o; L.o; A.714.A.4.o; A.715.A.4.o; A.716.A.4.o; 1.o; A.720.A.4.o; A.721 A.722.A.4.o; A. 173.B.4.i; A.174.B.4.i; A.175.B.4.i; A.176.B.4.i; A.196.B.4.i; A.202.B.4.i; A.205.B.4.i; A.206.B.4.i; A.210.B.4.i; A.211.B.4.i; A.212.B.4.i; A.213.B.4.i; A.703.B.4.i; A.704.B.4.i; A.705.B.4.i; A.706.B.4.i; A.710.B.4.i; A.711.BA4.i;. A.712.B.4.i; A.713.B.4.i; A.717.B.4.i; A.718.B.4.i; A.719.B.4.i; A.720.B.4.i; A.17.4B.4.i; A.108B.4.o; A.1.B4o; A .1.B.4.o; ;A.14.B.4.o; A.10.B.4.o; A.11B4o .4.B.4.o; o; A.168.B.4.o; A.169.B.4.o; A.17.B.4.o; A.14.B.4.o; A.175.B.4.o; A.146.B.4.o; A.19.B.4.o; A.0.B.4.o; A.25.B.4.o; A.209.B.4.o; A.210.B.4.o; A.211 .B.4.o; A.171.B.4.o; A.7.B.4.o; A.17.B.4.o; A.707.B.4.o; A.708.B.4.o; A.209.B.4.o; A.713.B.4.o; A.714.B.4.o; A.715.B.4.o; A.71.B.4.o; A.72.B.4.o; A.721.B.4.o; B.30.a.4.; i; B.18.a.54.i; B.11.a.54.i; B.14..54.i; i; B.10.a.4.i; .121.a.54.i; B.717.a.54.i; i; B.14.a.54.i; B.4.a.54.i; B.45 .a.54.i; i; B.149.a.54.i; B.150.a.54.i; B.11.a.54.i; i; B.168.a.54.i; B.169.a.54.i; B.137.a.54.i; i; B.14.a.54.i; B.175.a.54.i; B.146.a.54.i; i; B.149.a.54.i;. B.0.a.54.i;. B.5.a.54.i; L; B.209.a.54.i; B.10.a.54.i; .B.11.a.54.i; i; B.17.a.54.i;,* B.7.a.54.i; B.17.a.54.i; L; B.707.a.54.i;. B.208.a.54.i;. B.709.a.54.i; i; B.713.a.54.i; B.214.a.54.i;.B.215.a.54.i; t; B.701.a.54.i; B.72.a-.54.i; B.721 .a.54.i; ;B.3.a.54.o; B.4.a.54.o; B.7.a.54.o; B.9.a.54.o; B.108.a.54.o; B.120.a.54.o; B.141.a.54.o; B.149.a.54.o; B.168.a.54.o; B.174.a.54.o; B.196.a.54.o; B.209.a.54.o; B.701.a.54.o; B.707.a.54.o; B.713.a.54.o; o0; B.719.a.54.o; 88- B. 111 .a.54.o; B.121.a.54.o; B.142.a.54.o; B.150.a.54.o; B.169.a.54.o; B.175.a.54.o; B.202.a.54.o; B.210.a.54.o; B.702.a.54.o; B.708.a.54.o; B.714.a.54.o; B.720.a.54.o; B.114.a.54.o; B.137.a.54.o; B. 145.a.54.o; B.151.a.54.o; B.170.a.54.o; B.176.a.54.o; B.205.a.54.o; B.21 1.a.54.o; B.703.a.54.o; B.709.a.54.o; B.715.a.54.o; B.721 .a.54.o; WO 98/17647 WO 98/ 7647PCT[US97/18193 B.722.a.54.o; B.

7 23.a.54.o; B.724.a.54.o; B.172.b.54.i; B.173.b.54.i; B.174.b.54.i; B.1 75.b.54.i; B176.b.54.i; B.188.b.54.i; B. 189.b.54.i; B.190.b.54.i; 1.196.b.54.i; 1.202.b.54.i; B.205.b.54.i; B.206.b.54.i; B.207.b.54.i; B.208.b.54.i; 1.209.b.54.i; 1.210.b.54.i; B.211 .b.54.i; B.212.b.54.i; B.213.b.54.i; B.700.b.54.i; 1.701 .b.54.i; B.702.b.54.i; B.703.b.54.i; B.704.b.54.i; 1.705.b.54.i; 1.706.b.54.i; 1.707.b.54.i; B.708.b.54.i; B.709.b.54.i; B.710.b.54.i; 13.71 1.b.54.i; 1.712.b.54.i; 1.713.b.54.i; 1.714.b.54.i; B.715.b.54.i; B.716.b.54.i; B.71 7.b.54.i; B.718.b.54.i; B.719.b.54.i; 1.720.b.54.i; B.721.b.54.i; B.722.b.54.i; 1.723.b.54.i; B.724.b.54.i; 1.3.b.54.o; B.4.b.54.o; B.7.b.54.o; B.9.b.54.o; B.103.b.54.o; B.106.b.54.o; B.107.b.54.o; 13.108.b.54.o; B.111.b.54.o; 1.114.b.54.o; B.117.b.54.o; B.118.b.54.o; B.119.b.54.o; B.120.b.54.o; B.121.b.54.o; B.137.b.54.o; B.138.b.54.o; B.139.b.54.o; B.140.b.54.o; 1.141.b.54.o; B.142.b.54.o; 1.145.b.54.o; B.146.b.54.o; B.147.b.54.o; B.148.b.54.o; B.149.b.54.o; B.150.b.54.o; B.151 .b.54.o; B. 165.b.54.o; B. 166.b.54.o; 1.167.b.54.o; B. 168.b.54.o; 1.169.b.54.o; B.170.b.54.o; B.171.b.54.o; B.172.b.54.o; B.173.b.54.o; B.174.b.54.o; B.175.b.54.o; B.176.b.54.o; 1.188.b.54.o; B.189.b.54.o; B.190.b.54.o; B.196.b.54.o; 1.202.b.54.o; 1.205.b.54.o; B.206.b.54.o; 1.207.b.54.o; B.208.b 54.o; B *209.b.54.o; B.210.b.54.o; 1.211 .b.54.o; B-212.b.54.o;.B.213.b.54.o; B.700.b *54-o; 13.701 .b.54.o; B.702.b.54.o; B.703.b.54.o; B.704.b.54.o;. B705.b.54.o; *B.706.b.54.o;.B *.707.b.54.o; B.708.b.54.o; B.709.b.54.o; B.710.b.54.o; B.711.b.54.o; B 712.b.54.o; B.713.b.54.o; B.714.b.54.o; B.715.b.54.o; B.716.b.54.o; B.717.b.54.o; B.718.b.54.o; B.719.b.54.o; 1.720.b.54.o; 1.721 .b.54.o; B.722.b.54.o; B.723.b.54.o; B.724.b.54.o; 1.172.x.54.i; B.173.x.54.i; B.174.x.54.i; B.175.x.54.i; B.176.x.54.i; B.188.x.54.i; B.189.x.54.i; B.190.x.54.i; B.196.x.54.i; B.202.x.54.i; 1.205.x.54.i; B.206.x.54.i; B.207.x.54.i; B.208.x.54.i; B.209.x.54.i; B.210.x.54.i; 1.211 .x.54.i; B.212.x.54.i; B.213.x.54.i; B.700.x.54.i; B.701.x.54.i; B.702.x.54.i;

B.

7 03.x.54.i; 1.704.x.54.i; B.705.x.54.i; B.706.x.54.i; B.707.x.54.i; 1.708.x.54.i; B.709.x.54.i; 1.710.x.54.i; 1.711 .x.54.i; B.712.x.54.i; 1.713.x.54.i; B.714.x.54.i;

B.

7 15.x.54.i; B.716.x.54.i; 13.71 7.x.54.i; B.718.x.54.i; B.719.x.54.i; B.720.x.54.i; B.721.x.54.i; B.722.x.54.i; 1.723.x.54.i; B.724.x.54.i; B.3.x.54.o; B.4.x.54.o; B.7.x.54.o; B.9.x.54.o; B.103.x.54.o; B.106.x.54.o; B.10 7 .x.54.o; B-l08.x.54.o; B.111.x.54.o; B.l14.x.54.o; B.117.x.54.o; B.118.x.54.o; B.l19.x.54.o; B.l20.x.54.o; B.121.x.54.o; B.137.x.54.o; B.138.x.54.o; B.139.x.54.o; B. 140.x.54.o; B.141 .x.54.o; B.142.x.54.o; B. l45.x.54.o; B.146.x.54.o; B. 147.x.54.o; B.148.x.54.o; B.149.x.54.o; B.150.x.54.o; B.151.x.54.o; B.165.x.54.o; B.166.x.54.o; B.167.x.54.o; B.l68.k.54.o; B.169.x.54.o; B.170.x.54.o; B.171.x.54.o; B.172.x.54.o;

B.

1 7 3.x.54.o; B.l 7 4 .x.54.o; B.175.x.54.o; B. 176.x.54.o; B.188.x.54.o; 3. 189.x.54.o; B.190.x.54.o; B.196.x.54.o; B.202.x.54.o; B.205.x.54.o; B.206.x.54.o; B.207.x.54.o;

B.

2 O8.x.54.o; B.

2 09.x.54.o; B.

2 10.x.54.o; B.21 1.x.54.o; B.212.x.54.o; B.213.x.54.o; B.700.x.54.o; 1.701 .x.54.o; B.702.x.54.o; B.703.x.54.o; 1.704.x.54.o; B.705.x.54.o; 1.706.x.54.o; 1.707.x.54.o; B.708.x.54.o; B.709.x.54.o; B.710.x.54.o; 1.711 .x.54.o; B.712.x.54.o; B.713.x.54.o; B.714.x.54.o; B.715.x.54.o; B.716.x.54.o; B.717.x.54.o; B.718.x.54.o;

B.

7 19.x.54.o; 1.720.x.54.o; B.721 .x.54.o; B.722.x.54.o; 1.723.x.54.o; B.724.x.54.o; B.172.y.54.i; B. l 7 3 .y.54.i; 13.1 74.y.54.i; B.175.y.54.i; 13.1 76.y.54.i; B.188.'.y.54.i; B.189.y.54.i; B.l 9 0.y.54.i; B.196.y.54.i; B.202.y.54.i;

B.

2 O5.y.54.i; B.206;-y.54.i;

B.

2 O?.y.54.i; B.

2 08.y.54.i; B.209.y.54.i; B.210.y.54.i;

B.

2 ll.y.54.i; B.212.y.54.i;

B.

2 13.y.54.i; B.700.y.54.i; B.701-y.54.i;

B.

7 02.y.54.i; B.

7 O3.y.54.i; B.704.y.54.i; B.705.y.54.i;

B.

7

O

6 -y.

5 4.i; B.707.y.54.i; 1.708.y.54.i;

B.

7 09.y.54.i; B.710.y.54.i; 1.711 .y.54.i; B.712.y.54.i; B.713.y.54.i;

B.

7 14.y.54.i; B.715.y.54.i;

B.

7 16.y.54.i; B.

7 l7.y.54.i; B.718.y.54.i; B.719.y.54.i;

B.

7 20.y.54.i; 1.721 .y.54.i;

B.

72 2

B.

7 23.y.54.i; B.724.y.54.i; B.3.y.54.o; B.4.y.54.o; B.

7 .y.54.o; B.9.y.54.o; .B.lO3.y.54.o; B.lO6.y.54.o; B.107.y.54.o; B. lO8.y.54.o; 1.111 .y.54.o; 13.1 l4.y.54.o; 13.1 l 7 .y.

54 13.1 l8.y.54.o; B.1 l 9 .y.54.o; B.120.y.54.o; 13.121 .y.54.o; B. l3 7 .y.54.o; B.l 3 8.y.54.o; B.l 39 .y.54.o; B. l4O-y.54.o; B. l4l.y.54.o; B.l42.y.54.o; B.l45.y.54.o; B.146.y.54.o; B.l4 7 .y.54.o; B.148.y.54.o; B. l 49 .y.

5 4 B.l5O.y.54.o; B. 151 .y.5 4 .o; B.165.y.54.o; B.166.y.54.o; B.l 6 7 .y.

5 4.o; B. l 68 .y.54.o; B.l69.y.54.o; B.l 7 O.y.54.o; 1.171 .y.54.o; B.l 7 2 .y.54.o; B.l 7 3.y.54.o; B. l?4.y.54.o; B.175.y.54.o; B13l 7 6.y.54.o; B.188.y.54.o; B.l 8 9 .y.54.o; B. l 9 O-y.54.o; B. l 9 6.y.54.o; B.202.y.54.o;

B.

2

O

5 .y.

5 4 .o; 89- WO 98/1 7647 PCTIUS97/18 193 B.206.y.54.o; B.207.y.54.o; B.208.y.54.o; B.2O9.y.54.o; B.210.y.54.o; B.211.y.54.o; B.212.y.54.o; B.213.y.54.o; B.700.y.54.o; B.701 .y.54.o; B.702.y.54.o; B.703.y.54.o; B.704.y.54.o; B.705.y.54.o; B.706.y.54.o; B.7O7.y.54.o; B.708.y.54.o; B.709.y.54.o; B.710.y.54.o; B.71 1.y.

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B.

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C.165.b.54.o; C.166.b.54.o; C.167.b.54.o; C.168.b.54.o; C.169.b.54.o; C.170.b.54.o; C.171 .b.54.o; C.172.b.54.o; C.173.b.54.o; C.174.b.54.o; C.175.b.54.o; C.176.b.54.o; C.188.b.54.o; C.189.b.54.o; C. 190.b.54.o; C.196.b.54.o; C.202.b.54.o; C.205.b.54.o; C.206.b.54.o; C.207.b.54.o; C.208.b.54.o; C.209.b.54.o; C.210.b.54.o; C.211 .b.54.o; C.212.b.54.o; C.213.b.54.o; C.700.b.54.o; C.701 .b.54.o; C.702.b.54.o; C.703.b.54.o; C.704.b.54.o; C.705.b.54.o; C.706.b.54.o; C.707.b.54.o; C.708.b.54.o; C.709.b.54.o; C.710.b.54.o; C.711.b.54.o; C.712.b.54.o; C.713.b.54.o; C.714.b.54.o; C.715.b.54.o; C.716.b.54.o; C.717.b.54.o; C.718.b.54.o; C.719.b.54.o; -91- WO 98/1 7647 PCTIUS97/18193 1 2' 3C C.720.b.54.o; C.721 .b.54.o; C.722.b.54.o; C.723.b.54.o; C.724.b.54.o; C. 172.x.54.i; C.173.x.54.i; C.174.x.54.i; C.175.x.54.i; C.176.x.54.i; C.188.x.54.i; C.189.x.54.i; C.190.x.54.i; C.196.x.54.i; C.202.x.54.i; C.205.x.54.i; C.206.x.54.i; C.207.x.54.i; C.208.x.54.i; C.209.x.54.i; C.210.x.54.i; C.21 1.x.54.i; C.212.x.54.i; C.213.x.54.i; C.700.x.54.i; C.701.x.54.i; C.702.x.54.i; C.703.x.54.i; C.704.x.54.i; C.705.x.54.i; C.706.x.54.i; C.707.x.54.i; C.708.x.54.i; C.709.x.54.i; C.710.x.54.i; C.71 1.x.54.i; C.712.x.54.i; C.713.x.54.i; C.714.x.54.i; C.715.x.54.i; C.716.x.54.i; C.717.x.54.i; C.718.x.54.i; C.719.x.54.i; C.720.x.54.i; C.721 .x.54.i; C.722.x.54.i; C.723.x.54.i; C.724.x.54.i; C.3.x.54.o; C.4.x.54.o; C.7.x.54.o; C.9.x.54.o; C.103.x.54.o; C.106.x.54.o; o C.107.x.54.o; C.108.x.54.o; C.111.x.54.o; C.114.x.54.o; C.117.x.54.o; C.118.x.54.o; C.119.x.54.o; C.120.x.54.o; C.121.x.54.o; C.137.x.54.o; C.138.x.54.o; C.139.x.54.o; C.140.x.54.o; C.141 .x.54.o; C.142.x.54.o; C.145.x.54.o; C.146.x.54.o; C.147.x.54.o; C. 148.x.54.o; C.149.x.54.o; C.150.x.54.o; C.151 .x.54.o; C. 16 5.x.54.o; C.166.x.54.o; C.167.x.54.o; C.168.x.54.o; C.169.x.54.o; C.170.x.54.o; C.171.x.54.o; C.172.x.54.o; 5 C. 173.x.54.o; C.174.x.54.o; C.175.x.54.o; C.176.x.54.o; C.188.x.54.o; C.189.x.54.o; C.190.x.54.o; C.196.x.54.o; C.202.x.54.o; C.205.x.54.o; C.206.x.54.o; C.207.x.54.o; C.208.x.54.o; C.209.x.54.o; C.210.x.54.o; C.21 1.x.54.o; C.212.x.54.o; C.213.x.54.o; C.700.x.54.o; C.701 .x.54.o; C.702.x.54.o; C.703.x.54.o; C.704.x.54.o; C.705.x.54.o; C.*706.x.54.o; C.707.x.54.o; C.708.x.54.o; C.709.x.54.o; C.710.x.54.o; C.71 1.x.54.o; o C.712.x.54.o; C.713.x.54.o; C.714.x.54.o; C.715.x.54.o; C.716.x.54.o; C.717.x.54.o; C.718.x.54.o; C.719.x.54.o; C.720.x.54.o; C.721.x.54.o; C.722.x.54.o; C.723.x.54.o; C.724.x.54.o; C.172.y.54.i; C.173.y.54.i; C.174.y.54.i; C.175.y.54.i; C.176.y.54.i; C.188.y.54.i; C.189.y.54.i; C. 190.y.54.i; C.196.y.54.i; C.202.y.54.i; C.205.y.54.i; C.206.y.54.i; C.207.y.54.i; C.208.y.54.i; C.209.y.54.i; C.210.y.54.i; C.211.y.54.i; C.212.y.54.i; C.213.y.54.i; C.700.y.54.i; C.701.y.54.i; C.702.y.54.i; C.703.y.54.i; C.704.y.54.i; C.705.y.54.i; C.706.y.54.i; C.707.y.54.i; C.708.y.54.i; C.709.y.54.i; C.710.y.54.i; C.711.y.54.i; C.712.y.54.i; C.713.y.54.i; C.714.y.54.i; C.715.y.54.i; C.716.y.54.i; C.717.y.54.i; C.718.y.54.i; C.719.y.54.i; C.720.y.54.i; C.721.y.54.i; C.722.y.54.i; C.723.y.54.i; C.724.y.54.i; C.3.y.54.o; C.4.y.54.o; C.7.y.54.o; C.9.y.54.o; 0 C.103.y.54.o; C.106.y.54.o; C.107.y.54.o; C.108.y.54.o; C. 1 l.y.54.o; C.1 l4.y.54.o; C.1 1 7 .y.54.o; C.118.y.54.o; C.119.y.54.o; C.120.y.54.o; C.121.y.54.o; C.137.y.54.o; C.138.y.54.o; C.139.y.54.o; C.140.y.54.o; C.141 .y.54.o; C. l42.y.54.o; C.145.y.54.o; C. l 4 6.y.54.o; C.147.y.54.o; C.148.y.54.o; C.149.y.54.o; C.150.y.54.o; C.151 .y.54.o; C.165.y.54.o; C.166.y.54.o; C.167.y.54.o; C.168.y.54.o; C.169.y.54.o; C. 1 7 0 .y.

5 4.o; C.1 71 .y.54.o; C.172.y.54.o; C.173.y.54.o; C.174.y.54.o; C.175.y.54.o; C.176.y.54.o; C. 1 8 8.y.54.o; C.189.y.54.o; C.190.y.54.o; C.196.y.54.o; C.202.y.54.o; C.205.y.54.o; C.206.y.54.o; C.207.y.54.o; C.208.y.54.o; C.209.y.54.o; C.210.y.54.o; C.211 .y.54.o; C.212.y.54.o; C.213.y.54.o; C.700.y.54.o; C.701 .y.54.o; C.702.y.54.o; C ,O73.y.54.o; C.704.y.54.o; C.705.y.54.o; C.706.y.54.o; C.707.y.54.o; C.708.y.54.o; .C.709.y.54.o; C.710.y.54.o; C.71 1.y.54.o; C.712.y.54.o; C.713.y.54.o; C.714.y.54.o; C.715.y.54.o; C.716.y.54.o; C.717.y.54.o; C.718.y.54.o; C.719.y.54.o; C.720.y.54.o; C.721.y.54.o; C.722.y.54.o; C.723.y.54.o; C.724.y.54.o; C.172.z.54.i; C.173.z.54.i; C.174.z.54.i; C.175.z.54.i; C. 176.z.54.i; C.188.z.54.i; C. 189.z.54.i; C.190.z.54.i; C.196.z.54.i; C.202.z.54.i; C.205.z.54.i; C.206.z.54.i; C.207.z.54.i; C.208.z.54.i; C.209.z.54.i; C.210.z.54.i; C.211.z.54.i; C.212.z.54.i; C.213.z.54.i; C.700.z.54.i; C.701 .z.54.i; C.702.z.54.i; C.703.z.54.i; C.704.z.54.i; C.705.z.54.i; C.706.z.54.i; C.707.z.54.i; C.708.z.54.i; C.709.z.54.i; C.710.z.54.i; C.711.z.54.i; C.712.z.54.i; C.713.z.54.i; C.714.z.54.i; C.715.z.54.i; C.716.z.54.i; C.717.z.54.i; C.718.z.54.i; C.719.z.54.i; C.720.z.54.i; C.721.z.54.i; C.722.z.54.i; C.723.z.54.i; C.724.z.54.i; C.3.z.54.o; C.4.z.54.o; C.7.z.54.o; C.9.z.54.o; C.103.z.54.o; C.106.z.54.o; C. 107.z.54.o; C.108.z.54.; C-.121 5.4.o; C.137.z.54.o; C.138.z.54.o; C.12.z.54.o; C.145.z.54.o; C.146.z.54.o; C.150.z.54.o; C.15.z.54.o; C.16.z.54.o; C.169.z.54.o; C.170.z.54.o; C. 171.z.54.o; C.175.z.54.o; C.176.z.54.o; C.188.z.54.o; C.118.z.54.o; C.139.z.54.o; C.147.z.54.o; C.166.z.54.o; C.172.z.54. o; C.189.z.54.o; 92- C.119.z.54.o; C.120.z.54.o; C.140.z.54.o; C.141.z.54.o; C.148.z.54.o; C.149.z.54.o; C.167.z.54.o; C.168.z.54.o; C.173.z.54.o; C.174.z.54.o; C.190.z.54.o; C.196.z.54.o; WO 98/17647 WO 98/ 7647PCT/US97/18193 C.202.z.54.o; C.205.z.54.o; C.206.z.54.o; C.207.z.,54.o; C.210.z.54.o; C.21 1.z.54.o; C.212.z.54.o; C.213.z.54.o; C.702.z.54.o; C.703.z.54.o; C.704.z.54.o; C.705.z.54.o; C.708.z.54.o; C.709.z.54.o; C.710.z.54.o; C.711.z.54.o; C.714.z.54.o; C.715.z.54.o; C.716.z.54.o; C.717.z.54.o; C.720.z.54.o; C.721 .z.54.o; C.722.z.54.o; C.723.z.54.o; C.173.A.54.i; C.1 74.A.54.i; C.175.A.54.i; CA 76.A.54.i; C.190.A.54.i; C.196.A.54.i; C.202.A.54.i; C.205.A.54.i; C.208.A.54.i; C.209.A.54.i; C.210.A.54.i; C.21 1.A.54.i; C.700.A.54.i; C.701 .A.54.i; C.702.A.54.i; C.703.A.54.i; C.706.A.54.i; C.707.A.54.i; C.708.A.54.i; C.709.A.54.i; C.712.A.54.i; C.713.A.54.i; C.714.A.54.i; C.715.A.54.i; .C.718.A.54.i; C.719.A.54.i; C.720.A.54.i; C.721.A.54.i; C.724.A.54.i; C.3.A.54.o; C.4.A.54.o; C.7.A.54.o; C.9.

C.106.A.54.o; C.107.A.54.o; C.108.A.54.o; C.111.A.54.

C.1 18.A.54.o; C. 119.A.54.o; C.120.A.54.o; C.121 .A.54.

C.139.A.54.o; C.140.A.54.o; C.141.A.54.o; C.142.A..54.

C.147.A.54.o; C.148.A.54.o; C.149.A.54.o; C. 150.A.54.

C.166.A.54.o; C.167.A.54.o; C.168.A.54.o; C.169.A.54.

C.172.A.54.o; C.173.A.54.o; C.174.A.54.o; C.175.A.54.

C.189.A.54.o; C.190.A.54.o; C.196.A.54.o; C.202.A.54.

C.207.A.54.o; C.208.A.54.o; C.209.A.54.o; C.210.A.54.

C.213.A.54.o; C.700.A.54.o; C.701 .A.54.o; C.702.A.54.

C.705.A.54.o; C.706.A.54.o; C.707.A.54.o; C.708.A.54.

C.711.A.54.o; C.712.A.54.o; C.713.A.54.o; C.714.A.54.

C.717.A.54.o; C.718.A.54.o; C.719.A.54.o; C.720.A.54.

C.723.A.54.o; C.724.A.54.o; C.172.B.54.i; C. 173.B.54.i; C.176.B.54.i; C.188.B.54.i; C.189.B.54.i; C.190.B.54.i;

C

C.205.B.54.i; C.206.B.54.i; C.207.B.54.i; C.208.B.54.i; C C.211.B.54.i; C.212.B.54.i; C.213.B.54.i; C.700.B.54.i; C C.703.B.54.i; C.704.B.54.i; C.705.B.54.i; C.706.B.54.i;C C.709.B.54.i; C.710.B.54.i; C.71 1.B.54.i; C.712.B.54.i; C C.715.B.54.i; C.716.B.54.i; C.717.B.54.i; C.718.B.54.i; C C.721.B.54.i; C.722.B.54.i; C.723.B.54.i; C.724.B.54.i; C C.*9.B.54.o; C.103.B.54.o; C.106.B.54.o; C.107.B.54.o;

C

C.114.B.54.o; C.117.B.54.o; C.118.B.54.o; C.119.B.54.o; C.137.B.54.o; C.138.B.54.o; C. 139.B.54.o; C. 140.B.54.o; C.145.B.54.o; C.146.B.54.o; C. 147.B.54.o; C. 148.B.54.o; C. 151.B.54.o; C.165.B.54.o; C.166.B.54.o; C.167.B.54.o; C.170.B.54.o; C.171.B.54.o; C.172.B.54.o; C. 173.B.54.o; C.176.B.54.o; C.188.B.54.o; C.189.B.54.o; C.190.B.54.o; C.205.B:54.o; C.206.B.54.o; C.207.B.54.o; C.208.B.54.o; C.21 1.B.54.o; C.212.B.54.o; C.213.B.54.o; C.700.B.54.o; C.703.B.54.o; C.704.B.54.o; C.705.B.54.o; C.706.B.54.o; C.709.B.54.o; C.710.B.54.o; C.71 l.B.54.o; C.712.B.54.o; C.715.B.54.o; C.716.B.54.o; C.717.B.54.o; C.718.B.54.o; C.721.B.54.o; C.722.B.54.o; C.723.B.54.o; C.724.B54 o: C.-208.z.54.o; C.209.z.54.o; C.700.z.54.o; C.701.z.54.o; C.706.z.54.o; C.707.z.54.o; C.712.z.54.o; C.713.z.54.o; C.718.z.54.o; C.719.z.54.o; C.724.z.54.o; C.172.A.54.i; C.188.A.54.i; C.189.A.54.i; C.206.A.54.i; C.207.A.54.i; C.212.A.54.i; C.213.A.54.i; C.704.A.54.i; C.705.A.54.i; C.710.A.54.i; C.711.A.54.i; C.716.A.54.i; C.717.A.54.i; C.722.A.54.i; C.723.A.54.i; k.54.o; C.103.A.54.o; o; C.114.A.54.o; C.117.A.54.o; o; C.137.A.54.o; C.138.A.54.o; o; C.145.A.54.o; C.146.A.54.o; o; C.151.A.54.o; C.165.A.54.o; o; C.176.A.54.o; C.188.A.54.o; o; C.205.A.54.o; C.206.A.54.o; o; C.201.A.54.o; C.212.A.54.o; o; C.703.A.54.o; C.704.A.54.o; o; C.709.A.54.o; C.70.A.54.o; o; C.715.A.54.o; C.716.A.54.o; o; C.71.A.54.o; C.722.A.54.o; C.7..54.; '.16.B.54.i; C.02.B.54.i; .209.B.54.i; C.210.B.54.i; .701.B.54.i; C.702.B.54.i; .707.B.54.i; C.708.B.54.i; .713.B.54.i; C.714.B.54.i; .719.B.54.i; C.720.B.54.i; .3.B.54.o; C.4.B.54.o; C.7.B.54.o; .108.B.54.o; C.111.B.54.o; C.120.B.54.o; C.121.B.54.o; C.141.B.54.o; C.142.B.54.o; C.149.B.54.o; C.150.B.54.o; C.168.B.54.o; C.169.B.54.o; C.174.B.54.o; C.175.B.54.o; C.196.B.54.o; C.202.B.54.o; C.209.B.54.o; C.210.B.54.o; C.701.B.54.o; C.702.B.54.o; C.707.B.54.o; C.708.B.54.o; C.713.B.54.o; C.714.B.54.o; C.719.B.54.o; C.720.B.54.o; D.9.a.4.i; D.117.a.4 D.139.a.4 D.148.a.4, D.168.a.4, D. 175.a.4.

D.205.a.4.

D.212.a.4.

D3a4 D4 nl A io n dl4; D.103.a.4.i; D.106.a.4.i; D.107.a.4.i; D.108.a.4.i; D.1 11.a.4.i; D.1 14.a.4.i; D.1 18.a.4.i; D.11 9.a.4.i; D.120.a.4.i; D. 121.a.4.i; D.137.a.4.i; D.138.a.4.i; J1; D.140.a.4.i; D. 141 D.142.a.4.i; D. 145.a.4.i; D.146.a.4.i; D.147.a.4.i; Ji; D.149.a.4.i; D.150.a.4.i; D.151 D. 165.a.4.i; D.166.a.4.i; D.167.a.4.i; D.169.a.4.i; D.170.a.4.i; D.171.a.4.i; D.172.a.4.i; D.173.a.4.i; D.174.a.4.i; D.176.a.4.i; D.188.a.4.i; D.189.a.4.i; D.190.a.4.i; D.196.a.4.i; D.202.a.4.i; D.206.a.4.i; D.207.a.4.i; D.208.a.4.i; D.209.a.4.i; D.210.a.4.i; D.211.a.4.i; D.213.a.4.i; D.700.a.4.i; D.701.a.4.i; D.702.a.4.i; D.703.a.4.i; D.704.a.4.i; 93- WO 98/17647 WO 9817647PCT/US97/18193 D.705.a.4.i; D.706.a.4.i; D.707.a.4.i; D.708.a.4.i; D.709.a.4.i; D.710.a.4.i; D.71 1.a.4.i; D.712.a.4.i; D.713.a.4.i; D.714.a.4.i; D.715.a.4.i; D.716.a.4.i; D.717.a.4.i; D.718.a.4.i; D.719.a.4.i; D.720.a.4.i; D.721.a.4.i; D.722.a.4.i; D.723.a.4.i; D.724.a.4.i; D.3.a.4.o; D.4.a.4.o; D.7.a.4.o; D.9.a.4.o; D.103.a.4.o; D.106.a.4.o; D.107.a.4.o; D. 1 08.a.4.o; D.111.a.4.o; D.114.a.4.o; D.117.a.4.o; D.118.a.4.o; D.119.a.4.o; D.120.a.4.o; D.121.a.4.o; D.137.a.4.o; D.138.a.4.o; D.139.a.4.o; D.140.a.4.o; D.141.a.4.o; D. 142.a.4.o; D.145.a.4.o; D.146.a.4.o; D.147.a.4.o; P. 148.a.4.o; D.149.a.4.o; D.150.a.4.o; D.151.a.4.o; D.165.a.4.o; D.166.a.4.o; D.l67.a.4.o; D.168.a.4.o; D.169.a.4.o; D.170.a.4.o; D.171.a.4.o; D.172.a.4.o; D.173.a.4.o; D.174.a.4.o; D.175.a.4.o; D.176.a.4.o; D.188.a.4.o; D.189.a.4.o; D.190.a.4.o; D.196.a.4.o; D.202.a.4.o; D.205.a.4.o; D.206.a.4.o; D.207.a.4.o;

D.

2 08.a.4.o; D.209.a.4.o; P.21 D.211 D.212.a.4.o; D.213.a.4.o;

D.

7 00.a.4.o; D.701 .a.4.o; D.702.a.4.o; D.703.a.4.o; D.704.a.4.o; D.705.a.4.o;

D.

7 06.a.4.o; D.

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D.710.B.4.i; D.711 D.712.B.4.i; D.713.B.4.i; D.714.B.4.i; D.715.B.4.i; D.716.B.4.i; D.717.B.4.i; D.718.B.4.i; D.719.B.4.i; D.720.B.4.j; D.721 D.722.B.4.i; D.723.B.4.i; D.724.B.4.i; D.3.B.4.o; D.4.B.4.o; D.7.B.4.o; D.9.B.4.o; D.103.B.4.o; D.106.B.4.o; D.107.B.4.o; D.108.B.4.o; D.111.B.4.o; D.114.B.4.o; D.117.B.4.o; D.118.B.4.o; D.1 19.B.4.o; D.120.B.4.o; D.121 D. 137.B.4.o; D. 138.B.4.o; D.139.B.4.o; D.140.B.4.o; D.141 D.142.B.4.o; D.145.B.4.o; D. 146.B.4.o; D.147.B.4.o; D.148.B.4.o; D.149.B.4.o; D.150.B.4.o; D.151.B.4.o; D.165.B.4.o; D.166.B.4.o; D. 167.B.4.o; D.168.B.4.o; D.169.B.4.o; D. 170.B.4.o; D. 171.B.4.o; D.172.B.4.o; D.173.B.4.o; D.174.B.4.o; D.175.B.4.o; D.176.B.4.o; D.188.B.4.o; D.189.B.4.o; D.190.B.4.o; D.196.B.4.o; D.202.B.4.o; D.205.B.4.o; D.206.B.4.o; D.207.B.4.o; D.208.B.4.o; D.209.B.4.o; D.210.B.4.o; D.21 1.B.4.o; D.212.B.4.o' D.213.B.4.o; D.700.B.4.o; D.701.B.4.o; D.702.B.4.o; D.703.B.4.o; D.704.B.4.o;..D.705.B.4.o; D.706.B.4.o; D.707.B.4.o; D.708.B.4.o; D.709.B.4. 0; D.710.B.4.; D:,71 1.B.4.o; D.712.B.4.o; D.713.B.4.o; D.714.B.4.o; D.715.B.4.o; D.'716.B.4.o; D.717.B.4.o; D.718.B.4.o; D.719.B.4.o; D.720.B.4.o; D.721 D.722.B.4.o; D.723.B.4.o; D.724.B.4.o; E.3.a.54.i; E.4.a.54.i; E.7.a.54.i; E.9.a.54.i; E.103.a.54.i; E.106.a.54.i; E.107.a.54.i; E.108.a.54.i; E.111.a.54.i; E.114.a.54.i; E.117.a.54.i; E.118.a.54.i; E.1 19.a.54.i; E.120.a.54.i; E.121.a.54.i; E.137.a.54.i; E.138.a.54.i; E. 139.a.54.i; E.140.a.54.i; E.141.a.54.i; E. 142.a.54.i; E.145.a.54.i; E.146.a.54.i; E.147.a.54.i; E.148.a.54.i; E.149.a.54.i; E.150.a.54.i; E. 151 .a.54.i; E.165.a.54.i; E.166.a.54.i; E.167.a.54.i; E.168.a.54.i; E.169.a.54.i; E.170.a.54.i; E.171.a.54.i; E.172.a.54.i; E.173.a.54.i; E. 174.a.54.i; E.175.a.54.i; E. 176.a.54.i; E.188.a.54.i; E.189.a.54.i; E.190.a.54.i; E.196.a.54.i; E.202.a.54.i; E.205.a.54.i; E.206.a.54.i; E.207.a.54.i; E.208.a.54.i; E.209.a.54.i; E.210.a.54.i; E.21 1.a.54.i; E.212.a.54.i; E.213.a.54.i; E.700.a.54.i; E.701 .a.54.i; E.702.a.54.i; E.703.a.54.i; 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E.724.b.54.i; E.3.b.54.o; E.4.b.54.o; E.7.b.54.o; E.9.b.54.o; E.103.b.54.o; E.106.b.54.o; E.107.b.54.o; E.108.b.54.o; E.111.b.54.o; E.1 14.b.54.o; E.117.b.54.o; E. 118.b.54.o; E.119.b.54.o; E.120.b.54.o; E. 121 .b.54.o; E.137.b.54.o; 96- WO 98/17647 WO 9817647PCT/US97/18193 E.138.b.54.o; E.139.b.54.o; E.140.b.54.o; E. 141.b.54.o; E.142.b.54.o; E.145.b.54.o; E.146.b.54.o; E.147.b.54.o; E.148.b.54.o; F. 149.b.54.o; E.150.b.54.o; E.151 .b.54.o; E.165.b.54.o; E.166.b.54.o; E.167.b.54.o; E. 168.b.54.o; E.169.b.54.o; E.170.b.54.o; E.171.b.54.o; E.172.b.54.o; E.173.b.54.o; E. 174.b.54.o; E.175.b.54.o; E.176.b.54.o; E.188.b.54.o; E.189.b.54.o; E.190.b.54.o; F. 196.b.54.o; E.202.b.54.o; E.205.b.54.o; E.206.b.54.o; E.207.b.54.o; -E.208.b.54.o; E.209.b.54.o; E.210.b.54.o; E.21 1.b.54.o; E.212.b.54.o; E.213.b.54.o; E.700.b.54.o; E.701.b.54.o; E.702.b.54.o; E.703.b.54.o; E.704.b.54.o; E.705.b.54.o; E.706.b.54.o; E.707.b.54.o; E.708.b.54.o; E.709.b.54.o; E.710.b.54.o; E.71 1.b.54.o; E.712.b.54.o; E.713.b.54.o; 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5 4.o; E.138.y.54.o; F. l3 9 .y.54.o; E.140.y.54.o; E.141 .y.54.o; E.142.y.54.o; E. 14 5 .y.54.o; E.146.y.54.o; E.147.y.54.o; E.148.y.54.o; E.149.y.54.o; E.150.y.54.o; E.151.y.54.o; E.165.y.54.o; E.166.y.54.o; E.167.y.54.o; E.168.y.54.o; E.169.y.54.o; F. l7O.y.54.o; E.171 .y.54.o; E.172.y.54.o; F.173.y.54.o; E.174.y.54.o; E. l 7 5.y.54.o; F. l76.y.54.o; E.188.y.54.o; E.189.y.54.o; E.190.y.54.o; E.196.y.54.o; E.202.y.54.o; E.205.y.54.o; E.206.y.54.o; E.207.y.54.o; E.208.y.54.o; E.209.y.54.o; E.210.y.54.o; E.211.y.54.o; E.212.y.54.o; E.213.y.54.o; E.700.y.54.o; F.701.y.54.o; E.702.y.54.o; E.703.y.54.o; E.7O4.y.54.o; E.705.y.54.o; E.706.y.54.o; E.707.y.54.o; E.708.y.54.o; E.709.y.54.o; E.7lO.y.54.o; E.711.y.54.o; E.712.y.54.o; E.713.y.54.o; E.714.y.54.o; E.715.y.54.o; E.716.y.54.o; E.717.y.54.o; E.718.y.54.o; E.719.y.54.o; E.720.y.54.o; E.721.y.54.o; E.722.y.54.o; E.723.y.54.o; E.724.y.54.o; E.172.z.54.i; E. 173.z.54.i; E.174.z.54.i; E.175.z.54.i; E.176.z.54.i; E.188.z.54.i; E.189.z.54.i; 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F.173.y.54.i; F.190.y.54.i; F.208.y.54.i; F.700.y.54.i; F.706.y.54.i; F.712.y.54.i; F.718.y.54.i; F.724.y.54.i; F.107.y.54.o; F.119.y.54.o; F.140.y.54.o; F.148.y.54.o; F.167.y.54.o; F.173.y.54.o; F.190.y.54.o; F.208.y.54.o; F.700.y.54.o; F.706.y.54.o; F.712.y.54.o; F.718.y.54.o; F.724.y.54.o; F.188.z.54.i; F.206.z.54.i; F.212.z.54.i; F.704.z.54.i; F.710.z.54.i; F.716.z.54.i; F.722.z.54.i; F.103.z.54.o; F.117.z.54.o; F.138.z.54.o; F.146.z.54.o; F.165.z.54.o; F.171.z.54.o; F.188.z.54.o; F.206.z.54.o; F.212.z.54.o; F.704.z.54.o; F.710.z.54.o; F.716.z.54.o; F.722.z.54.o; F.175.A.54.i; F.202.A.54.i; F.210.A.54.i; F.702.A.54.i; F.14.5.x.54.o; F.146.x.54.o; F.147.x.54.o; F.148.x.54.o; F.149.x.54.o; F.15.x.54.o; F.146.x.54.o; F.166.x.54.o; F.167.x.54.o; F.168.x.54.o; F.170.x.54.o; F.171 .x.54.o; F.172.x.54.o; F.17.x.54.o; F.174.x.54.o; F.176.x.54.o; F.188.x.54.o; F.189.x.54.o; F.190.x.54.o; F.196.x.54.o; F.205.x.54.o; F.206.x.54.o; F.207.x.54.o; F.0.x.54.o; F.9.x.54.o; F.21 1.x.54.o; F.212.x.54.o; F.213.x.54.o; F.700.x.54.o; F.701 .x.54.o; F.203.x.54.o; F.704.x.54.o; F.705.x.54.o; F.706.x.54.o; F.707.x.54.o; F.709.x.54.o; F.70.x.54.o; F.711 .x.54.o; F.712.x.54.o; F.713.x.54.o; F.715.x.54.o; F.716.x.54.o; F.717.x.54.o; F.718.x.54.o; F.719.x.54.o; F.721 .x.54.o; F.722.x.54.o; _F.723.x.54.o; F.724.x.54.o; F.1 7 2.y.54.i; F.174.y.54.i; F.175.y.54.i; F. 176 .y.54.i; F.188.y.54.i; F. 1 8 9.y.54.i; F.196.y.54.i; F.202.y.54.i; F.205.y.54.i; F.206.y.54.i; F.207.y.54.i; F.209.y.54.i; F.210.y.54.i; F.211.y.54.i; F.212.y.54.i; F.213.y.54.i; F.701.y.54.i; F.702.y.54.i; F.703.y.54.i; F.704.y.54.i; F.705.y.54.i; F.707.y.54.i; F.708.y.54.i; F.709.y.54.i; F.710.y.54.i; F.711.y.54.i; F.713.y.54.i; F.714.y.54.i; F.715.y.54.i; F.716.y.54.i; F.717.y.54.i; F.719.y.54.i; F.720.y.54.i; F.721.y.54.i; F.722.y.54.i;. F:723.y.54.i; F.3.y.54.o; F.4.y.54.o; F.7.y.54.o; F.9.y.54.o; F. 1O3.y.54.o; F.106.y.54.o; F.108.y.54.o; F.111 .y.54.o; F.114.y.54.o; F.117.y.54.o; F.118.y.54.o; F.120.y.54.o; F.121 .y.54.o; F.137.y.54.o; F. 1 38.y.54.o; F.139.y.54.o; F.141 .y.

5 4 F.142.y.54.o; F.145.y.54.o; F. 1 46.y.54.o; F.147.y.54.o; F.149.y.54.o; F.150.y.54.o; F.151.y.54.o; F. l65.y.54.o; F.166.y.54.o; F.168.y.54.o; F.169.y.54.o; F.170.y.54.o; F. 171 .y.

5 4 F.172.y.54.o; F.174.y.54.o; F.175.y.54.o; F.176.y.54.o; F.188.y.54.o; F.189.y.54.o; F.196.y.54.o; F.202.y.54.o; F.205.y.54.o; F.206.y.54.o; F.207.y.54.o; F.209.y.54.o; F.210.y.54.o; F.211.y.54.o; F.212.y.54.o; F.213.y.54.o; F.701 .y.54.o; F.702.y.54.o; F.703.y.54.o; F.704.y.54.o; F.705.y.54.o; F.707.y.54.o; F.708.y.54.o; F.709.y.54.o; F.710.y.54.o; F.71 l.y.54.o; F.713.y.54.o; F.714.y.54.o; F.715.y.54.o; F.716.y.54.o; F.717.y.54.o; F.719.y.54.o; F.720.y.54.o; F.721.y.54.o; F.722.y.54.o; F.723.y.54.o; F.172.z.54.i; F.173.z.54.i; F.174.z.54.i; F.175.z.54.i; F.176.z.54.i; F.189.z.54.i; F.190.z.54.i; F. 196.z.54.i; F.202.z.54.i; F.205.z.54.i; F.207.z.54.i; F.208.z.54.i; F.209.z.54.i; F.210.z.54.i; F.21 1.z.54.i; F.213.z.54.i; F.700.z.54.i; F.701 .z.54.i; F.702.z.54.i; F.703.z.54.i; F.705.z.54.i; F.706.z.54.i; F.707.z.54.i; F.708.z.54.i; F.709.z.54.i; F.71 1.z.54.i; F.712.z.54.i; F.713.z.54.i; F.714.z.-54.i; F.715.z.54.i; F.717.z.54.i; F.718.z.54.i; F.719.z.54.i; F.720.z.54.i; F.721.z.54.i; F.723.z.54.i; F.724.z.54.i; F.3.z.54.o; F.4.z.54.o; F.7.z.54.o; F.9.z.54.o; F.106.z.54.o; F.118.z.54.o; F.139.z.54.o; F.147.z.54.o; F.166.z.54.o; F. 172.z.54.o; F.189.z.54.o; F.207.z.54.o; F.213.z.54.o; F.705.z.54.o; F.71 1.z.54.o; F.717.z.54.o; F.723.z.54.o; F.176.A.54.i; F.205.A.54.i; F.211.A.54.i; F.703.A.54.i; F.107.z.54.o; F.119.z.54.o; F.140.z.54.o; F.148.z.54.o; F.167.z.54.o; F.173.z.54.o; F.190.z.54.o; F.208.z.54.o; F.700.z.54.o; F.706.z.54.o; F.712.z.54.o; F.718.z.54.o; F.724.z.54.o; F.188.A.54.i; F.206.A.54.i; F.212.A.54.i; F.704.A.54.i; F.108.z.54.o; F.120.z.54.o; F.141.z.54.o; F.149.z.54.o; F.168.z.54.o; F. 174.z .54.o; F.196.z.54.o; F.209.z.54.o; F.701.z.54.o; F.707.z.54.o; F.713.z.54.o; F.719.z.54.o; F.172.A.54 .i; F.189.A.54.i; F.207.A.54.i; F.213.A.54.i; F.705.A.54.i; 100- F.111.z.54.o; F.121 .z.54.o; F. 142.z.54.o; F.150.z.54.o; F.169.z.54.o; F.175.z.54.o; F.202.z.54.o; F.210.z.54.o; F.702.z.54.o; F.708.z.54.o; F.714.z.54.o; F.720.z.54.o; F. 173.A.54.i; F.190.A.54.i; F.208.A.54.i; F.700.A.54.i; F.706.A.54.i; F. 114.z.54.o; F.137.z.54.o; F. 145.z.54.o; F.151.z.54.o; F.170.z.54.o; F.176.z.54.o; F.205.z.-54.o; F.211.z.54.o; F.703.z.54.o; F.709.z.54.o; F.715.z.54.o; F.721.z.54.o; F. 174.A.54.i; F.196.A.54.i; F.209.A.54.i; F.701.A.54.i; F.707.A.54.i; WO 98/1 7647 PTU9/89 PCTIUS97/18193 F.708.A.54.i; F.709.A.54.i; F.710.A.54.i; F.711 .A.54.i; F.712.A.54.i; F.713.A.54.i; F.714.A.54.i; F.715.A.54.i; F.716.A.54.i; F.717.A.54.i; F.718.A.54.i; F.719.A.54.i; F.720.A.54.i; F.721 .A.54.i; F.722.A.54.i; F.723.A.54.i; F.724.A.54.i; F.3.A.54.o; F.4.A.54.o; F.7.A.54.o; F.9.A.54.o; F.103.A.54.o; F.106.A.54.o; F.107.A.54.o; F.108.A.54.o; F.111.A.54.o; F.114.A.54.o; F.117.A.54.o; F.118.A.54.o; F.119.A.54.o; F.120.A.54.o; F.121 .A.54.o; F.137.A.54.o; F.138.A.54.o; F. 139.A.54.o; F.140.A.54.o; F.141 .A.54.o; F.142.A.54.o; F.145.A.54.o; F.146.A.54.o; F. 147.A.54.o; F.148.A.54.o; F.149.A.54.o; F.150.A.54.o; F.151.A.54.o; F.165.A.54.o; F.166.A.54.o; F.167.A.54.o; F.168.A.54.o; F.169.A.54.o; F.170.A.54.o; F.171.A.54.o; F.172.A.54.o; F.173.A.54.o; F.1 74.A.54.o; F.175.A.54.o; F. 176.A.54.o; F.1 88.A.54.o; F. 189.A.54.o; F. 190.A.54.o; F.196.A.54.o; F.202.A.54.o; F.205.A.54.o; F.206.A.54.o; F.207.A.54.o; F.208.A.54.o; F.209.A.54.o; F.210.A.54.o; F.21 1.A.54.o; F.212.A.54.o; F.213.A.54.o; F.700.A.54.o; .F.701 .A.54.o; F.702.A.54.o; F.703.A.54.o; F.704.A.54.o; F.705.A.54.o; F.706.A.54.o; F.707.A.54.o; F.708.A.54.o; F.709.A.54.o; F.710.A.54.o; F.71 1.A.54.o; F.712.A.54.o; F.713.A.54.o; F.714.A.54.o; F.715.A.54.o; F.716.A.54.o;. F.717.A.54.o;. F.718.A.54.o; F.719.A.54.o; F.720.A.54.o; F.721.A.54.o; F.722.A.54.o;, F.723.A.54.o; F.724.A.54.o; F.172.B.54.i; F.173.B.54.i; F.174.B.54.i; F. 175.B.54.i; F.176.B.54.i; F. 188.B.54.i; F.189.B.54.i; F.190.B.54.i; F.196.B.54.i; F.202.B.54.i; R.205.B.54.i; F.206.B.54.i; F.207.B.54.i; F.208.B.54.i; F.209.B.54.i; F.210.B.54.i; F.211 .B.54.i; F.212.B.54.i; F.213.B.54.i; F.700.B.54.i; F.701 .B.54.i; F.702.B.54.i; F.703.B.54.i; F.704.B.54.i; F.705.B.54.i; F.706.B.54.i; F.707.B.54.i; F.708.B.54.i; F.709.B.54.i; F.710.B.54.i; F.71 1.B.54.i; F.712.B.54.i; F.713.B.54.i; F.714.B.54.i; F.715.B.54.i; F.716.B.54.i; F.717.B.54.i; F.718.B.54.i; F.719.B.54.i; F.720.B.54.i; F.721 .B.54.i; F.722.B.54.i; F.723.B.54.i; F.724.B.54.i; F.3.B.54.o; F.4.B.54.o; F.7.B.54.o; F.9.B.54.o; F.103.B.54.o; F.106.B.54.o; F.107.B.54.o; F.108.B.54.o; F.111.B.54.o; F.114.B.54.o; F.117.B.54.o; F.118.B.54.o; F.119.B.54.o; F.120.B.54.o; F.121.B.54.o; F.137.B.54.o; F.138.B.54.o; F.139.B.54.o; F.140.B.54.o; F.141 .B.54.o; F.142.B.54.o; F.145.B.54.o; F.146.B.54.o; F.147.B.54.o; F.148.B.54.o; F.149.B.54.o; F.150.B.54.o; F. 151 .B.54.o; F.165.B.54.o; F.166.B.54.o; F.167.B.54.o; F. 168.B.54.o; F.169.B.54.o; F.170.B.54.o; F.171 .B.54.o; F.172.B.54.o; F.173.B.54.o; F.174.B.54.o; F.175.B.54.o; F. 176.B.54.o; F. 188.B.54.o; F.189.B.54.o; F.190.B.54.o; F.196.B.54.o; F.202.B.54.o; F.205.B.54.o; F.206.B.54.o; F.207.B.54.o; F.208.B.54.o; F.209.B.54.o; F.210.B.54.o; F.211 .B.54.o; F.212.B.54.o; F.213.B.54.o; F.700.B.54.o; F.701 .B.54.o; F.702.B.54.o; F.703.B.54.o; F.704.B.54.o; F.705.B.54.o; F.706.B.54.o; F.707.B.54.o; F.708.B.54.o; F.709.B.54.o; F.710.B.54.o; F.71 1.B.54.o; F.712.B.54.o; F.713.B.54.o; F.714.B.54.o; F.715.B.54.o; F.716.B.54.o; F.717.B.54.o; F.718.B.54.o; F.719.B.54.o; F.720.B.54.o; F.721 .B.54.o; F.722.B.54.o; F.723.B.54.o; F.724.B.54.o.

Salts andiHydrates.

The compositions of this invention optionally comprise salts of the compounds herein, especially pharmaceutically acceptable non-toxic salts containing, for example, Na+, Li+, Ca++ and Such salts may include those derived by combination of appropriate cations such as alkali and alkaline earth metal ions or ammonium and quaternary amino ions with an acid anion moiety, typically the W1 group carboxylic acid. Monovalent salts are preferred if a water soluble salt is desired.

Metal salts typically are prepared by reacting the metal hydroxide with a compound of this invention. Examples of metal salts which are prepared in 101- WO 98/17647 PCT/US97/18193 this way are salts containing Li+, Na+, and A less soluble metal salt can be precipitated from the solution of a more soluble salt by addition of the suitable metal compound.

In addition, salts may be formed from acid addition of certain organic and inorganic acids, HC1, HBr, H 2 S0 4 H3P04, or organic sulfonic acids, to basic centers, typically amines of group G1, or to acidic groups such as E 1 Finally, it is to be understood that the compositions herein comprise compounds of the invention in their un-ionized, as well as zwitterionic form, and combinations with stoiochimetric amounts of water as in hydrates.

Also included within the scope of this invention are the salts of the parental compounds with one or more amino acids. Any of the amino acids described above are suitable, especially the naturally-occurring amino acids found as protein components, although the amino acid typically is one bearing a side chain with a basic or acidic group, lysine, arginine or glutamic acid, or a neutral group such as glycine, serine, threonine, alanine, isoleucine, or leucine.

-102- WO 98/17647 PCT/US97/18193 Methods of Inhibition of Neuraminidase.

Another aspect of the invention relates to methods of inhibiting the activity of neuraminidase comprising the step of treating a sample suspected of containing neuraminidase with a compound of the invention.

Compositions of the invention act as inhibitors of neuraminidase, as intermediates for such inhibitors or have other utilities as described below.

The inhibitors will bind to locations on the surface or in a cavity of neuraminidase having a geometry unique to neuraminidase. Compositions binding neuraminidase may bind with varying degrees of reversibility. Those compounds binding substantially irreversibly are ideal candidates for use in this method of the invention. In a typical embodiment the compositions bind neuraminidase with a binding coefficient of less than 10- 4 M, more typically less than 10- 6 M, still more typically 10- 8 M. Once labeled, the substantially irreversibly binding compositions are useful as probes for the detection of neuraminidase. Accordingly, the invention relates to methods of detecting neuraminidase in a sample suspected of containing neuraminidase comprising the steps of: treating a sample suspected of containing neuraminidase with a composition comprising a compound of the invention bound to a label; and observing the effect of the sample on the activity of the label. Suitable labels are well known in the diagnostics field and include stable free radicals, fluorophores, radioisotopes, enzymes, chemiluminescent groups and chromogens. The compounds herein are labeled in conventional fashion using functional groups such as hydroxyl or amino.

Within the context of the invention samples suspected of containing neuraminidase include natural or man-made materials such as living organisms; tissue or cell cultures; biological samples such as biological material samples (blood, serum, urine, cerebrospinal fluid, tears, sputum, .saliva, tissue samples, and the like); laboratory samples; food, water, or air samples; bioproduct samples such as extracts of cells, particularly recombinant cells synthesizing a desired glycoprotein and the like. Typically the sample will be suspected of containing an organism which produces neuraminidase, frequently a pathogenic organism such as a virus. Samples can be contained in any medium including water and organic solvent/water mixtures.

Samples include living organisms such as humans, and man made materials such as cell cultures.

The treating step of the invention comprises adding the composition of the invention to the sample or it comprises adding a precursor of the -103- WO 98/17647 PCT/US97/18193 composition to the sample. The addition step comprises any method of administration as described above.

If desired, the activity of neuraminidase after application of the composition can be observed by any method including direct and indirect methods of detecting neuraminidase activity. Quantitative, qualitative, and semiquantitative methods of determining neuraminidase activity are all contemplated. Typically one of the screening methods described above are applied, however, any other method such as observation of the physiological properties of a living organism are also applicable.

Organisms that contain neuraminidase include bacteria (Vibrio cholerae, Clostridium perfringens, Streptococcus pneumoniae, and Arthrobacter sialophilus) and viruses (especially orthomyxoviruses or paramyxoviruses such as influenza virus A and B; parainfluenza virus, mumps virus, Newcastle disease virus, fowl plague virus, and sendai virus).

Inhibition of neuraminidase activity obtained from or found within any of these organisms is within the objects of this invention. The virology of influenza viruses is described in "Fundamental Virology" (Raven Press, New York, 1986), Chapter 24. The compounds of this invention are useful in the treatment or prophylaxis of such infections in animals, e.g. duck, rodents, or swine, or in man.

However, in screening compounds capable of inhibiting influenza viruses it should be kept in mind that the results of enzyme assays may not correlate with cell culture assays, as shown Table 1 of Chandler et al., supra.

Thus, a plaque reduction assay should be the primary screening tool.

Screens for Neuraminidase Inhibitors.

Some of the compounds of the invention will be selective for particular organisms such as bacterial verses viral neuraminidases or neuraminidase from influenza verses parainfluenza. These compositions are identified by routine screening.

Compositions of the invention are screened for inhibitory activity against neuraminidase by any of the conventional techniques for evaluating enzyme activity. Within the context of the invention, typically compositions are first screened for inhibition of neuraminidase in vitro and compositions showing inhibitory activity are then screened for activity in vivo.

Compositions having in vitro Ki (inhibitory constants) of less then about 5 X 10-6 M, typically less than about 1 X 10-7 M and preferably less than about 5 X -104- WO 98/17647 PCT/US97/18193 10-8 M are preferred for in vivo use.

Useful in vitro screens have been described in detail and will not be elaborated here. However, von Itzstein, M. et al. "Nature", 363(6428):418-423 (1993), in particular page 420, column 2, full paragraph 3, to page 421, column 2, first partial paragraph, describes a suitable in vitro assay of Potier, M. et al.

"Analyt. Biochem.", 94:287-296 (1979), as modified by Chong, A.K.J. et al.

"Biochem. Biophys. Acta", 1077:65-71 (1991); and Colman, P. M. et al.

International Publication No. WO 92/06691 (Int. App. No. PCT/AU90/00501, publication date April 30, 1992) page 34, line 13, to page 35, line 16, describes another useful in vitro screen.

In vivo screens have also been described in.detail, see von Itzstein, M.

et al. op. cit., in particular page 421, column 2,.first full paragraph, to page 423, column 2, first partial paragraph, and Colman, P. M. et al. op. cit. page 36, lines 1-38, describe suitable in vivo screens.

In screening assays used herein, compositions having IC 50 values greater than 1IM (micromolar) are considered as being inactive against influenza neuraminidase.

Pharmaceutical Formulations and Routes of Administration.

The compounds of this invention are formulated with conventional carriers and excipients, which will be selected in accord with ordinary practice.

Tablets will contain excipients, glidants, fillers, binders and the like. Aqueous formulations are prepared in sterile form, and when intended for delivery by other than oral administration generally will be isotonic. All formulations will optionally contain excipients such as those, set forth in the "Handbook of Pharmaceutical Excipients" (1986). Excipients include ascorbic acid and other antioxidants, chelating agents such as EDTA, carbohydrates such as dextrin, .hydroxyalkylcellulose, hydroxyalkylmethylcellulose, stearic acid and the like.

The pH of the formulations ranges from about 3 to about 11, but is ordinarily about 7 to One or more compounds of the invention (herein referred to as the active ingredients) are administered by any route appropriate to the condition to be treated. Suitable routes include oral, rectal, nasal, topical (including buccal and sublingual), vaginal and parenteral (including subcutaneous, intramuscular, intravenous, intradermal, intrathecal and epidural), and the like. It will be appreciated that the preferred route may vary with for example the condition of the recipient. An advantage of the compounds of this -105- WO 98/17647 PCTIUS97/18193 invention is that they are orally bioavailable and can be dosed orally; it is not necessary to administer them by intrapulmonary or intranasal routes.

While it is possible for the active ingredients to be administered alone it may be preferable to present them as pharmaceutical formulations. The formulations, both for veterinary and for human use, of the invention comprise at least one active ingredient, as above defined, together with one or more acceptable carriers therefor and optionally other therapeutic ingredients.

The carrier(s) must be "acceptable" in the sense of being compatible with the other ingredients of the formulation and physiologically innocuous to the recipient thereof.

The formulations include those suitable for the foregoing administration routes. The formulations may conveniently be presented in unit dosage form and may be prepared by any of the methods well known in the art of pharmacy. Techniques and formulations generally are found in Remington's Pharmaceutical Sciences (Mack Publishing Co., Easton, PA). Such methods include the step of bringing into association the active ingredient with the carrier which constitutes one or more accessory ingredients. In general the formulations are prepared by uniformly and intimately bringing into association the active ingredient with liquid carriers or finely divided solid carriers or both, and then, if necessary, shaping the product.

Formulations of the invention suitable for oral administration are prepared as discrete units such as capsules, cachets or tablets each containing a predetermined amount of the active ingredient; as a powder or granules; as solution or a suspension in an aqueous liquid or a non-aqueous liquid; or as an oil-in-water liquid emulsion or a water-in-oil liquid emulsion. The active ingredient may also be presented as a bolus, electuary or paste.

A tablet is made by compression or molding, optionally with one or more accessory ingredients. Compressed tablets may be prepared by compressing in a suitable machine the active ingredient in a free-flowing form such as a powder or granules, optionally mixed with a binder, lubricant, inert diluent, preservative, surface active or dispersing agent. Molded tablets may be made by molding in a suitable machine a mixture of the powdered active ingredient moistened with an inert liquid diluent. The tablets may optionally be coated or scored and optionally are formulated so as to provide slow or controlled release of the active ingredient therefrom. In one embodiment acid hydrolysis of the medicament is obviated by use of an enteric coating.

For infections of the eye or other external tissues e.g. mouth and skin, -106- WO 98/17647 PCTIUS97/18193 the formulations are preferably applied as a topical ointment or cream containing the active ingredient(s) in an amount of, for example, 0.075 to w/w (including active ingredient(s) in a range between 0.1% and 20% in increments of 0.1% w/w such as 0.6% w/w, 0.7% w/w, etc.), preferably 0.2 to 15% w/w and most preferably 0.5 to 10% w/w. When formulated in an ointment, the active ingredients may be employed with either a paraffinic or a water-miscible ointment base. Alternatively, the active ingredients may be formulated in a cream with an oil-in-water cream base.

If desired, the aqueous phase of the cream base may include, for example, at least 30% w/w of a polyhydric alcohol, i.e. an alcohol having two or more hydroxyl groups such as propylene glycol, butane 1,3-diol, mannitol, sorbitol, glycerol and polyethylene glycol (including PEG 400) and mixtures thereof. The topical formulations may desirably include a compound which enhances absorption or penetration of the active ingredient through the skin or other affected areas. Examples of such dermal penetration enhancers include dimethyl sulphoxide and related analogs.

The oily phase of the emulsions of this invention may be constituted from known ingredients in a known manner. While the phase may comprise merely an emulsifier (otherwise known as an emulgent), it desirably comprises a mixture of at least one emulsifier with a fat or an oil or with both a fat and an oil. Preferably, a hydrophilic emulsifier is included together with a lipophilic emulsifier which acts as a stabilizer. It is also preferred to include both an oil and a fat. Together, the emulsifier(s) with or without stabilizer(s) make up the so-called emulsifying wax, and the wax together with the oil and fat make up the so-called emulsifying ointment base which forms the oily dispersed phase of the cream formulations.

Emulgents and emulsion stabilizers suitable for use in the formulation ,of the invention include Tween® 60, Span® 80, cetostearyl alcohol, benzyl alcohol, myristyl alcohol, glyceryl mono-stearate and sodium lauryl sulfate.

The choice of suitable oils or fats for the formulation is based on achieving the desired cosmetic properties. The cream should preferably be a non-greasy, non-staining and washable product with suitable consistency to avoid leakage from tubes or other containers. Straight or branched chain, mono- or dibasic alkyl esters such as di-isoadipate, isocetyl stearate, propylene glycol diester of coconut fatty acids, isopropyl myristate, decyl oleate, isopropyl palmitate, butyl stearate, 2-ethylhexyl palmitate or a blend of branched chain esters known as Crodamol CAP may be used, the last three being preferred 107- WO 98/17647 PCT/US97/18193 esters. These may be used alone or in combination depending on the properties required. Alternatively, high melting point lipids such as white soft paraffin and/or liquid paraffin or other mineral oils are used.

Formulations suitable for topical administration to the eye also include eye drops wherein the active ingredient is dissolved or suspended in a suitable carrier, especially an aqueous solvent for the active ingredient. The active ingredient is preferably present in such formulations in a concentration of to 20%, advantageously 0.5 to 10% particularly about 1.5% w/w.

Formulations suitable for topical administration in the mouth include lozenges comprising the active ingredient in a flavored basis, usually sucrose and acacia or tragacanth; pastilles comprising the active ingredient in an inert basis such as gelatin and glycerin, or sucrose and acacia;. and mouthwashes comprising the active ingredient in a suitable liquid carrier.

Formulations for rectal administration may be presented as a suppository with a suitable base comprising for example cocoa butter or a salicylate.

Formulations suitable for intrapulmonary or nasal administration have a particle size for example in the range of 0.1 to 500 microns (including particle sizes in a range between 0.1 and 500 microns in increments microns such as 0.5, 1, 30 microns, 35 microns, etc.), which is administered by rapid inhalation through the nasal passage or by inhalation through the mouth so as to reach the alveolar sacs. Suitable formulations include aqueous or oily solutions of the-active ingredient. Formulations suitable for aerosol or dry powder administration may be prepared according to conventional methods and may be delivered with other therapeutic agents.such as compounds heretofore used in the treatment or prophylaxis of influenza A or B infections as described below.

Formulations suitable for vaginal administration may be presented as pessaries, tampons, creams, gels, pastes, foams or spray formulations containing in addition to the active ingredient such carriers as are known in the art to be appropriate.

Formulations suitable for parenteral administration include aqueous and non-aqueous sterile injection solutions which may contain anti-oxidants, buffers, bacteriostats and solutes which render the formulation isotonic with the blood of the intended recipient; and aqueous and non-aqueous sterile suspensions which may include suspending agents and thickening agents.

The formulations are presented in unit-dose or multi-dose containers, -108- WO 98/17647 PCT/US97/18193 for example sealed ampoules and vials, and may be stored in a freeze-dried (lyophilized) condition requiring only the addition of the sterile liquid carrier, for example water for injection, immediately prior to use. Extemporaneous injection solutions and suspensions are prepared from sterile powders, granules and tablets of the kind previously described. Preferred unit dosage formulations are those containing a daily dose or unit daily sub-dose, as herein above recited, or an appropriate fraction thereof, of the active ingredient.

It should be understood that in addition to the ingredients particularly mentioned above the formulations of this invention may include other agents conventional in the art having regard to the type of formulation in question, for example those suitable -for oral administration may include flavoring agents.

The invention further provides veterinary compositions comprising at least one active ingredient as above defined together with a veterinary carrier therefor.

Veterinary carriers are materials useful for the purpose of administering the composition and may be solid, liquid or gaseous materials which are otherwise inert or acceptable in the veterinary art and are compatible with the active ingredient. These veterinary compositions may be administered orally, parenterally or by any other desired route.

Compounds of the invention are used to provide controlled release pharmaceutical formulations containing as active ingredient one or more compounds of the invention ("controlled release formulations") in which the release of the active ingredient are controlled and regulated to allow less frequency dosing or to improve the pharmacokinetic or toxicity profile of a given active ingredient.

Effective dose of active ingredient depends at least on the nature of the condition being treated, toxicity, whether the compound is being used prophylactically (lower doses) or against an active influenza infection, the method of delivery, and the pharmaceutical formulation, and will be determined by the clinician using conventional dose escalation studies. It can be expected to be from about 0.0001 to about 100 mg/kg body weight per day.

Typically, from about 0.01 to about 10 mg/kg body weight per day. More typically, from about .01 to about 5 mg/kg body weight per day. More typically, from about .05 to about 0.5 mg/kg body weight per day. For example, for inhalation the daily candidate dose for an adult human of approximately 70 kg 109- WO 98/17647 PCT/US97/18193 body weight will range from 1 mg to 1000 mg, preferably between 5 mg and 500 mg, and may take the form of single or multiple doses.

Active ingredients of the invention are also used in combination with other active ingredients. Such combinations are selected based on the condition to be treated, cross-reactivities of ingredients and pharmacoproperties of the combination. For example, when treating viral infections of the respiratory system, in particular influenza infection, the compositions of the invention are combined with antivirals (such as amantidine, rimantadine and ribavirin), mucolytics, expectorants, bronchialdilators, antibiotics, antipyretics, or analgesics. Ordinarily, antibiotics, antipyretics, and analgesics are administered together with the compounds of this invention.

Enteric Protection Another embodiment of the present invention is directed toward enteric protected forms of the compounds of the invention. As used herein the term "enteric protection" means protecting a compound of the invention in order to avoid exposing a portion of the gastrointestinal tract, typically the upper gastrointestinal tract, in particular the stomach and esophagus, to the compound of this invention. In this way gastric mucosal tissue is protected against rates of exposure to a compound of the invention which produce adverse effects such as nausea; and, alternatively, a compound of the invention is protected from conditions present in one or more portions of the gastrointestinal tract, typically the upper gastrointestinal tract.

By way of example and not limitation, such enterically protected forms include enteric coated vehicles, such as enteric coated: tablets, enteric coated granules, enteric coated beads, enteric coated particles, enteric coated microparticles, and enteric coated capsules. In preferred embodiments, a compound of the invention is placed in a suitable vehicle such as a tablet, granule or capsule, and the vehicle is coated with a pharmaceutically acceptable enteric coating. In alternative preferred embodiments, a compound of the invention is prepared as enterically protected granules, particles, microparticles, spheres, microspheres, or colloids, and the enteric protected granules, particles, microparticles, spheres, microspheres, or colloids, are prepared as pharmaceutically acceptable dosage forms such as tablets, granules, capsules, or suspensions.

One aspect of the invention is directed to enteric-coated dosage forms of the compounds of the invention to effect delivery to the intestine of a human -110- WO 98/17647 PCT/US97/18193 or other mammal, preferably to the small intestine, of a pharmaceutical composition comprised of a therapeutically effective amount of about 0.1-1000 mg of an active ingredient and optional pharmaceutically acceptable excipients.

The term "vehicle" as used herein includes pharmaceutically acceptable dose vehicles. Many vehicles are well known in the art cited herein such as tablet, coated tablet, capsule, hard capsule, soft gelatin capsule, particle, microparticle, sphere, microsphere, colloid, microencapsulationed, sustained release, semisolid, suppository or granule vehicles.

The term "pharmaceutically-acceptable excipients" as used herein includes any physiologically inert, pharmacologically inactive material known to one skilled in the art, which is compatible with the physical and chemical characteristics of the particular compound of the invention selected for use.

These excipients are described elsewhere herein. The excipients may, but need not, provide enteric protection.

The term "unit dose" is used herein in the conventional sense to mean a single application or administration of the compound of this invention to the subject being treated in an amount as stated below. It should be understood that a therapeutic or prophylactic dosage can be given in one unit dose, or alternatively, in multiples of two or more of such dose units with the total adding up to the desired amount of compound for a given time period.

In general, the oral unit dosage form compositions of this invention, preferably employ from about 1 to about 1000 milligrams typically, about to 500 mg, more typically from about 50 to about 300 mg, more typically yet, 75 mg of the compound for each unit dose. The actual:amount will vary depending upon the active compound selected.

In typical embodiments, an enteric protectant is applied to the vehicle containing the compound, or to the compound without vehicle, the protectant prevents nausea inducing exposure, contact or rates of exposure of the mouth, esophagus or stomach with the compound, but which releases the compound for absorption when the dosage form passes into the proximal portion of the lower gastrointestinal tract, or in some embodiments, substantially only in the colon.

The relative proportions of the protectant and compound of the invention are varied to achieve optimum absorption depending on the compound selected. The minimum or maximum amount of enteric protectant by weight percent is not critical. Typically, enteric protected 111- WO 98/17647 PCT/US97/18193 embodiments contain less than about 50% enteric coating by weight. More typically about 1% to about 25%, still more typically, about 1% to about more typically yet, about 1% to about 10% (all by weight).

Related Art: A number of monographs describe enteric protection and related technology. Such monographs include: "Theory and Practice of Industrial Pharmacy," 3rd ed. Lea Febiger, Philadelphia, 1986 (ISBN 0-8121-0977-5); Lehmann, "Practical Course in Laquer Coating,", Eudragit, 1989; Lieberman; Lachman, Schwartz, "Pharmaceutical Dosage Forms: Tablets", 1990, Dekker (ISBN: 0-8247-8289-5); Lee, Ping I. Editor Good, William R. Editor, "Controlled- Release Technology: Pharmaceutical Applications", ACS Symposium Ser.Vol.

348 (ISBN: 0-608-03871-7); Wilson, Billie Shannon, Margaret "Dosage Calculation: A Simplified Approach", 1996, Appleton Lange (ISBN: 0-8385- 9297-X); Lieberman, Herbert A. Editor Rieger, Martin "Pharmaceutical Dosage Forms Disperse Systems", 1996, Dekker (ISBN: 0-8247-9387-0); "Basic Tests for Pharmaceutical Dosage Forms", 1995, World Health (ISBN: 92-4- 154418-X); Karsa, D. Editor; Stephenson, R. Editor, "Excipients Delivery Systems for Pharmaceutical Formulations: Proceedings of the "Formulate '94" British Association for Chemical Specialties Symposium", 1995, CRC Pr (ISBN: 0-85404-715-8); Ansel, Howard Popovich, Nicholas G.; Allen, Lloyd "Pharmaceutical Dosage Forms Drug Delivery Systems, 6th 1994, Williams Wilkins (ISBN: 0-683-01930-9); "The Sourcebook for Innovative Drug Delivery: Manufacturers of Devices Pharmaceuticals, Suppliers of Products Services, Sources of Information", 1987, Canon Comns (ISBN: 0-9618649-0-7); Chiellini, Editor; Giusti, Editor; Migliaresi, Editor; Nicolais, Editor, "Polymers in Medicine II: Biomedical Pharmaceutical Applications", 1986, Plenum (ISBN: 0-306-42390-1); "Pharmaceutical Aerosol: A Drug Delivery System in Transition", 1994, Technomic (ISBN: 0-87762-971-4); Avid; Lieberman, Lachman, "Pharmaceutical Dosage Forms: Parenteral Medication, 2nd Expanded; Revised 1992, Dekker (ISBN: 0-8247-9020-0); Laffer, Editor; Bachmann, Editor; Metzger, Editor, "Implantable Drug Delivery Systems", 1991, S Karger (ISBN: 3-8055-5434-6); Borchardt, Ronald Editor; Repta, Arnold J., Editor; Stella, Valentino Editor, "Directed Drug Delivery: A Multidisciplinary Approach", 1985, Humana (ISBN: 0-89603-089-X); Anderson, James Editor, "Advances in Drug Delivery Systems 5: Proceedings of the -112- WO 98/17647 PCT/US97/18193 Fifth International Symposium on Recent Advances in Drug Delivery Systems, Salt Lake City, UT, U. S. February 25-28, 1991", Elsevier (ISBN: 0- 444-88664-8); Turco, Salvatore King, Robert "Sterile Dosage Forms: Their Preparation Clinical Application", 1987, Williams Wilkins (ISBN: 0-8121- S 5 1067-6); Tomlinson, Editor; Davis, S. Editor, "Site-Specific Drug Delivery: Cell Biology, Medical Pharmaceutical Aspects", 1986, Wiley (ISBN: 0-471- 91236-0); Hess, Editor, "Pharmaceutical Dosage Forms Their Use", 1986, Hogrefe Huber Pubs (ISBN: 3-456-81422-4); Avis; Lieberman; Lachman, "Pharmaceutical Dosage Forms, Vol. 1986, Dekker (ISBN: 0-8247-7085-4); Carstensen, Jens "Pharmaceutics of Solids Solid Dosage Forms", 1977, Wiley (ISBN: 0-471-13726-X); Robinson, Joseph Editor; "Ophthalmic Drug Delivery Systems", 1980, Am Pharm Assn (ISBN: 0-917330-32-3); Ansel, Howard "Introduction to Pharmaceutical Dosage Forms, 4th 1985, Williams Wilkins (ISBN: 0-8121-0956-2); "High Tech Drug Delivery Systems", 1984, Intl Res Dev (ISBN: 0-88694-622-0); Swarbrick, James, "Current Concepts in Pharmaceutical Sciences: Dosage Form Design Bioavailability", 1985, Lea Febiger (ISBN: 0-318-79917-0); Sprowls, Joseph Editor, "Prescription Pharmacy: Dosage Formulation Pharmaceutical Adjuncts, 2nd 1970, Lippincott (ISBN: 0-397-52050-6); and Polderman, Editor, "Formulation Preparation of Dosage Forms: Proceedings of the 37th International Congress of Pharmaceutical Sciences of The Hague, Netherlands, September, 1977", Elsevier (ISBN: 0-444-80033-6).

Specific Embodiments: In another embodiment, the inventive composition is in the form of an enteric coated tablet dosage form. In this embodiment, the formulation is formed into a hard tablet by conventional means and the tablet is coated with the enteric coating in accordance with conventional techniques.

In a preferred embodiment, the inventive compound is in the form of an enteric coated powder dosage form. In this embodiment, the formulation is filled into a hard or soft-shell capsule or their equivalent and the capsule is coated with the enteric coating in accordance with conventional techniques.

In one embodiment the inventive composition is in the form of a liquid suspension of enteric coated particles of a compound of the invention.

In this embodiment, a suspension of the inhibitor in a liquid is filled into a hard or soft-shell capsule or their equivalent and the capsule is coated with the enteric coating in accordance with conventional techniques.

-113- WO 98/17647 PCT/US97/18193 As alternatives to the foregoing embodiments the capsule or other dosage container is itself constructed of an enteric protection reagent or component, or otherwise is integral to the container.

In another embodiment enteric protectants are used to administer a compound of the invention to the colon. The delivery system is a tablet comprised of three layers: 1) a core containing the active compound of the invention; 2) a non-swelling, erodible polymer layer surrounding the core (with the combination of core and erodible polymer layer being referred to as the "dual matrix tablet"); and 3) an enteric coating applied to the dual matrix tablet. The composition and function of the components of such a colon targeted delivery system are further, described in U.S. Patent 5,482,718, which is incorporated herein by reference in.its entirety at this. location, in particular column 2, line 29, to column 4, line 12, are incorporated herein with specificity.

Another embodiment of the invention is directed toward enteric protected emulsion, suspension, tablet, coated tablet, hard capsule, soft gelatin capsule, microencapsulation, sustained release, liquid, semisolid, suppositorie, and aerosol dosage forms of the compounds of the invention. "Theory and Practice of Industrial Pharmacy," 3rd ed. Lea Febiger, Philadelphia, 1986 (ISBN 0-8121-0977-5), describes each of these standard dosage forms in detail at the following locations: emulsion and suspension dosage forms (pp. 100-122), tablets (pp. 293-345), coated tablet (pp. 346-373), hard capsules (pp. 374-397), soft gelatin capsules (pp. 398-411), microencapsulation (pp. 412-430), sustained release dosage forms (pp. 430-456), liquids (pp. 457-478), pharmaceutical suspensions (pp. 479-501), emulsions (pp. 502-533), semisolids (pp. 534-563), suppositories (pp. 564-587), and pharmaceutical aerosols (pp. 589-618).

Alternative embodiments include enteric protected sustained release, controlled release, particulate, microencapsulated, multiparticulate, microparticulate, colloidal, nasal, inhalation, oral mucosal, colonic, dermal, transdermal, ocular, topical, and veterinary dosage forms of the compounds of the invention. Each of these dosage form technologies is described in detail in "Drugs and the Pharmaceutical Sciences", Edited by James Swarbrick, Marcel Dekker, New York.

Materials: Conventional enteric protectant polymers or mixtures of polymers for use herein include insoluble at a pH below about 5.5, that which is -114- WO 98/17647 PCT/US97/18193 generally found in the stomach, but are soluble at pH about 5.5 or above, i.e., that present in the small intestine and the large intestine. The effectiveness of particular enteric protectant materials can be measured using known USP procedures.

Exemplary enteric protectant polymers employable in this embodiment include cellulose acetate phthalate, methyl acrylate-methacrylic acid copolymers, cellulose acetate succinate, hydroxypropylmethylcellulose phthalate, polyvinyl acetate phthalate, and methyl methacrylate-methacrylic acid copolymers. Another example is an anionic carboxylic copolymers based on methacrylic acid and methacrylate, commercially available as Eudragit(r).

Typical examples include cellulose acetate phthalate cellulose acetate trimellitate, hydroxypropyl methylcellulose phthalate ("HPMCP"), hydroxypropyl methylcellulose phthalate succinate, polyvinyl acetate phthalate methacrylic acid, and methacrylic acid esters. More typically the protectant is selected from, PVAP and/or HPMCP, particularly PVAP. PVAP is known under the trademark Sureteric(r), manufactured by Colorcon, Inc.

The enteric protectant materials may be applied to the vehicle with or without conventional plasticizers, such as acetylated mono glycerides, propylene glycol, glycerol, glyceryl triacetate, polyethylene glycol, triethyl citrate, tributyl citrate, diethyl phthalate, or dibutyl phthalate using methods known to those skilled in the art.

Exemplary Embodiments of Enteric Protection: Embodiment 1: Enteric Protected A.141.x.4.i Capsules In this exemplary embodiment, compound A.141.x.4.i, phosphate salt form, 100 mg/capsule, is mixed with Croscarmellose Sodium (2.6 mg/capsule) in a size 4 white opaque hard gelatin capsule shells (capsule composition: gelatin NF, titanium dioxide USP) and the capsule is enterically coated.

The following enteric coating formulations are applied to the capsule by procedures known to those in the art.

Ingredients w/w Preparation A: Hydroxypropyl methylcellulose phthalate ("HPMCP") -115- WO 98/17647 PCT/US97/18193 Triacetin Alcohol USP 7.9 Water 15.5 Preparation B: HPMCP 10.0 Titanium dioxide 0.2 Dimethyl polysiloxane 0.05 Triethyl citrate Alcohol USP 72.75 Water 16.00 Preparation C: Cellulose acetate phthalate ("CAP") Diethyl phthalate Titanium dioxide 0.2 Acetone 44.9 Denatured alcohol 44.9 Preparation D: Polyvinyl acetate phthalate ("PVAP") Acetylated glycerides 0.8 Methylene chloride 47.1 Denatured alcohol 47.1 Preparation E: Methacrylic acid or methacrylic acid ester (Eudragit S or L, manufactured by Rohm Pharma, GMBH, Wetterstadt, West Germany) Acetone 46.0 Anhydrous alcohol 46.0 Plasticizer q.s.

-116- WO 98/17647 PCTIUS97/18193 Typically the enteric polymer (with or without plasticizer) is dissolved in the solvents described under each formulation to form a suspension /solution. Optionally, an opacifer such as titanium dioxide is added. The vehicle is sprayed with the coating suspension /solution in a suitable vessel under conditions such that an enterically-protected coating is laid down on the vehicle without dissolving or disrupting the vehicle.

Approximately 1-50%, typically 1-15%, more typically, 5-10% by weight of the finished. coated vehicle of the enteric polymer coating will be useful for adequate enteric protection.

Embodiment 2: Enateric Protected Tablet In another exemplary embodiment a core tablet is encased within an enteric coating. Optionally, a subcoating is used.

Core Tablets: Core tablets of the present invention may be formed by combining (a) the active ingredient with pharmaceutical ly-acceptable excipients in a mixture including for example: a diluent, a binder, a disintegrant, and optionally one or more ingredients selected from a group consisting of: compression aids, flavors, flavor enhancers, sweeteners, dyes, pigments, buffer systems, and preservatives; lubricating the mixture with a lubricant; and compressing the resultant lubricated mixture into a desired tablet form using various tableting techniques available to those skilled in the art. The term "tablet" as used herein is intended to encompass compressed or formed pharmaceutical dosage formulations of all shapes and sizes.

Typical diluents employable in this embodiment include lactose or microcrystalline cellulose.

Typical binders employable in this embodiment include, but are not limited to, povidone. Povidone is available under the trade name "Avicel" from ISP Corporation.

The disintegrant may be one of several modified starches, or modified cellulose polymers. Typically, croscarmellose sodium is used.

Croscarmellose sodium NF Type A is commercially available under the trade name "Ac-di-sol".

Typical lubricants include magnesium stearate, stearic acid, hydrogenated vegetable oil or talc.

WO 98/17647 PCT/US97/18193 Flavoring agents include those described in Remington's Pharmaceutical Sciences, 18th Edition, Mack Publishing Company, 1990, pp.

1288-1300.

Typical sweeteners include saccharin, Aspartame, or edible mono- or disaccharides such as glucose or sucrose.

Dyes and pigments include those described in the Handbook of Pharmaceutical Excipients, pp. 81-90, 1986 by the American Pharmaceutical Association the Pharmaceutical Society of Great Britain.

Typical preservatives include methyl paraben, propyl paraben, cetylpyridinium chloride, and the salts thereof, sorbic acid and the salts thereof, thimerosal, or benzalkonium chloride.

Enteric Coating: Eudragit L-30-D(r), a methacrylic acid copolymer, manufactured by Rohm Pharma GmbH, Weiterstadt, West Germany, is a suitable enteric polymer. Eudragit L-30-D(r) has a ratio of free carboxyl groups to ester groups of approximately 1:1 and is freely soluble at pH 5.5 and above. In general, the greater the percentage of Eudragit L-30-D(r) contained in the enteric coating, the more proximal the release of active in the lower gastrointestinal tract. The location in the lower gastrointestinal tract at which the coating releases the compound can be manipulated by one skilled in the art through control of the composition and thickness of the applied enteric coating.

Typically a plasticizer, such as those set forth above, is included. Other additives such as talc or silica may be used as detackifiers to improve the coating process.

-118- WO 98/17647 PCT/US97/18193 Subcoating: Optionally a stability enhancing subcoat on the core tablet is used to minimize interaction between the compound of this invention and the enteric coating. This also permits utilization of a single 10-300 micron thick enteric film without affecting product stability. This subcoat inhibits migration of active ingredient from the core tablet into the enteric coating, thus improving shelf life and product stability, but the subcoat rapidly dissolves in intestinal fluid once the exterior enteric coating has been breached.

Typical subcoating polymers employable in this embodiment include hydroxypropyl methylcellulose, hydroxypropyl. cellulose, hydroxypropyl ethylcellulose, or polyvinylpyrrolidone.

Metabolites of the Compounds of the Invention Also falling within the scope of this invention are the in vivo metabolic products of the compounds described herein, to the extent such products are novel and unobvious over the prior art. Such products may result for example from the oxidation, reduction, hydrolysis, amidation, esterification and the like of the administered compound, primarily due to enzymatic processes. Accordingly, the invention includes novel and unobvious compounds produced by a process comprising contacting a compound of this invention with a mammal for a period of time sufficient to yield a metabolic product thereof. Such products typically are identified by preparing a radiolabelled

C

1 4 or H 3 compound of the invention, administering it parenterally in a detectable dose greater than about mg/kg) to an animal such as rat, mouse, guinea pig, monkey, or to man, allowing sufficient time for metabolism to occur (typically about 30 seconds to hours) and isolating its conversion products from the urine, blood or other biological samples. These products are easily isolated since they are labeled (others are isolated by the use of antibodies capable of binding epitopes surviving in the metabolite). The metabolite structures are determined in conventional fashion, e.g. by MS or NMR analysis. In general, analysis of metabolites is done in the same way as conventional drug metabolism studies well-known to those skilled in the art. The conversion products, so long as they are not otherwise found in vivo, are useful in diagnostic assays for therapeutic dosing of the compounds of the invention even if they possess no neuraminidase inhibitory activity of their own.

-119- WO 98/17647 PCT/US97/18193 Additional Uses for the Compounds of This Invention.

The compounds of this invention, or the biologically active substances produced from these compounds by hydrolysis or metabolism in vivo, are used as immunogens or for conjugation to proteins, whereby they serve as components of immunogenic compositions to prepare antibodies capable of binding specifically to the protein, to the compounds or to their metabolic products which retain immunologically recognized epitopes (sites of antibody binding). The immunogenic compositions therefore are useful as intermediates in the preparation of antibodies for use in diagnostic, quality control, or the like, methods or in assays for the compounds or their novel metabolic products. The compounds are useful for raising antibodies against otherwise non-immunogenic polypeptides, in that the-compounds serve as haptenic sites stimulating an immune response that cross-reacts with the unmodified conjugated protein.

The hydrolysis products of interest include products of the hydrolysis of the protected acidic and basic groups discussed above. As noted above, the acidic or basic amides comprising immunogenic polypeptides such as albumin or keyhole limpet hemocyanin generally are useful as immunogens. The metabolic products described above may retain a substantial degree of immunological cross reactivity with the compounds of the invention. Thus, the antibodies of this invention will be capable of binding to the unprotected compounds of the invention without binding to the protected compounds; alternatively the metabolic products, will be capable of binding to the protected compounds and/or the metabolitic products without binding to the protected compounds of the invention, or will be.capable of:binding specifically to any one or all three. The antibodies desirably will not substantially cross-react with naturally-occurring materials. Substantial cross-reactivity is reactivity -under.specific assay conditions for specific analytes sufficient to interfere with the: assay results.

The immunogens of this invention contain the compound of this invention presenting the desired epitope in association with an immunogenic substance. Within the context of the invention such association means covalent bonding to form an immunogenic conjugate (when applicable) or a mixture of non-covalently bonded materials, or a combination of the above.

Immunogenic substances include adjuvants such as Freund's adjuvant, immunogenic proteins such as viral, bacterial, yeast, plant and animal polypeptides, in particular keyhole limpet hemocyanin, serum albumin, -120- WO 98/17647 PCT/US97/18193 bovine thyroglobulin or soybean trypsin inhibitor, and immunogenic polysaccharides. Typically, the compound having the structure of the desired epitope is covalently conjugated to an immunogenic polypeptide or polysaccharide by the use of a polyfunctional (ordinarily bifunctional) crosslinking agent. Methods for the manufacture of hapten immunogens are conventional per se, and any of the methods used heretofore for conjugating haptens to immunogenic polypeptides or the like are suitably employed here as well, taking into account the functional groups on the precursors or hydrolytic products which are available for cross-linking and the likelihood of producing antibodies specific to the epitope in question as opposed to the immunogenic substance.

Typically the polypeptide is conjugated to a site on the compound of the invention distant from the epitope to be recognized.

The conjugates are prepared in conventional fashion. For example, the cross-linking agents N-hydroxysuccinimide, succinic anhydride or alkN=C=Nalk are useful in preparing the conjugates of this invention. The conjugates comprise a compound of the invention attached by a bond or a linking group of 1-100, typically, 1-25, more typically 1-10 carbon atoms to the immunogenic substance. The conjugates are separated from starting materials and by products using chromatography or the like, and then are sterile filtered and vialed for storage.

The compounds of this invention are cross-linked for example through any one or more of the following groups: a hydroxyl group of W6; a carboxyl group of El; a carbon atom of W6, El, G1, or T1, in substitution of H; and an amine group of G1. Included within such compounds are amides of polypeptides where the polypeptide serves as an above-described R6c or R6b groups.

Animals are typically immunized against the immunogenic conjugates or derivatives and antisera or monoclonal antibodies prepared in conventional fashion.

The compounds of the invention are useful for maintaining the structural integrity of glycoproteins in recombinant cell culture, they are added to fermentations in which glycoproteins are being produced for recovery so as to inhibit neuraminidase-catalyzed cleavage of the desired glycoproteins. This is of particular value in the recombinant synthesis of proteins in heterologous host cells that may disadvantageously degrade the carbohydrate portion of the protein being synthesized.

-121- WO 98/17647 PCT/US97/18193 The compounds of the invention are polyfunctional. As such they represent a unique class of monomers for the synthesis of polymers. By way of example and not limitation, the polymers prepared from the compounds of this invention include polyamides and polyesters.

The present compounds are used as monomers to provide access to polymers having unique pendent functionalities. The compounds of this invention are useful in homopolymers, or as comonomers with monomers which do not fall within the scope of the invention. Homopolymers of the compounds of this invention will have utility as cation exchange agents (polyesters or polyamides) in the preparation of molecular sieves (polyamides), textiles, fibers, films, formed articles and the like.where the acid functionality El is esterified to a hydroxyl group in W6,. for example, whereby the pendant basic group G1 is capable of binding acidic functionalities such as are found in polypeptides whose purification is desired. Polyamides are prepared by cross-linking El and G1, with W6 and the adjacent portion of the ring remaining free to function as a hydrophilic or hydrophobic affinity group, depending up the selection of the W6 group. The preparation of these polymers from the compounds of the invention is conventional per se.

The compounds of the invention are also useful as a unique class of polyfunctional surfactants. Particularly when W6 does not contain a hydrophilic substituent and is, for example, alkyl or alkoxy, the compounds have the properties of bi-functional surfactants. As such they have useful surfactant, surface coating, emulsion modifying, rheology modifying and surface wetting properties.

As polyfunctional compounds with:defined geometry and carrying simultaneously polar and non-polar moieties, the compounds of the invention are useful as a unique class of phase transfer agents. By way of -example and not limitation, the compounds of the invention are useful in phase transfer catalysis and liquid/liquid ion extraction (LIX).

The compounds of the invention optionally contain asymmetric carbon atoms in groups W6, El, G1, and T1. As such, they are a unique class of chiral auxiliaries for use in the synthesis or resolution of other optically active materials. For example, a racemic mixture of carboxylic acids can be resolved into its component enantiomers by: 1) forming a mixture of diastereomeric esters or amides with a compound of the invention wherein W6 is an asymmetric hydroxyalkane or amino alkane group; 2) separating the diastereomers; and 3) hydrolyzing the ester structure. Racemic alcohols are -122- WO 98/17647 PCT/US97/18193 separated by ester formation with an acid group of El. Further, such a method can be used to resolve the compounds of the invention themselves if optically active acids or alcohols are used instead of racemic starting materials.

The compounds of this invention are useful as linkers or spacers in preparing affinity absorption matrices, immobilized enzymes for process control, or immunoassay reagents. The compounds herein contain a multiplicity of functional groups that are suitable as sites for cross-linking desired substances. For example, it is conventional to link affinity reagents -such as hormones, peptides, antibodies, drugs, and the like to insoluble substrates. These insolublized reagents are employed in known fashion to absorb binding partners for the affinity reagents from manufactured preparations, diagnostic samples and other impure mixtures. Similarly, immobilized enzymes are used to perform catalytic conversions with facile recovery of enzyme. Bifunctional compounds are commonly used to link analytes to detectable groups in preparing diagnostic reagents.

Many functional groups in the compounds of this invention are suitable for use in cross-linking. For example, the carboxylic or phosphonic acid of group E 1 is used to form esters with alcohols or amides with amines of the reagent to be cross-linked. The G 1 sites substituted with OH, NHR 1

SH,

azido (which is reduced to amino if desired before cross-linking), CN, NO 2 amino, guanidino, halo and the like are suitable sites. Suitable protection of reactive groups will be used where necessary while assembling the crosslinked reagent to prevent polymerization of the bifunctional compound of this invention. In general, the compounds here are used by linking them through carboxylic or phosphonic acid to the hydroxyl or amino groups of the first linked partner, then covalently bonded to the other-binding partner through a T 1 or G 1 group. For example a first binding partner such as a steroid hormone is esterified to the carboxylic acid of a compound of this invention and then this conjugate is cross-linked through a G 1 hydroxyl to cyanogen bromide activated Sepaharose, whereby immobilized steroid is obtained.

Other chemistries for conjugation are well known. See for example Maggio, "Enzyme-Immunoassay" (CRC, 1988, pp 71-135) and references cited therein.

As noted above, the therapeutically useful compounds of this invention in which the W 1 or G 1 carboxyl, hydroxyl or amino groups are protected are useful as oral or sustained release forms. In these uses the protecting group is removed in vivo, hydrolyzed or oxidized, so as to yield the free carboxyl, amino or hydroxyl. Suitable esters or amides for this utility -123- WO 98/17647 PCT[US97/18193 are selected based on the substrate specificity of esterases and/or carboxypeptidases expected to be found within cells where precursor hydrolysis is desired. To the extent that the specificity of these enzymes is unknown, one will screen a plurality of the compounds of this invention until the desired substrate specificity is found. This will be apparent from the appearance of free compound or of antiviral activity. One generally selects amides or esters of the invention compound that are not hydrolyzed or hydrolyzed comparatively slowly in the upper gut, (ii) gut and cell permeable and (iii) hydrolyzed in the cell cytoplasm and/or systemic circulation. Screening assays preferably use cells from particular tissues that are susceptible to influenza infection, e.g. the mucous membranes of .the-bronchopulmonary tract. Assays known in the art are suitable for determining in vivo bioavailability including intestinal lumen stability, cell permeation, liver homogenate stability and plasma stability assays. However, even if the ester, amide or other protected derivatives are not converted in vivo to the free carboxyl, amino or hydroxyl groups, they remain useful as chemical intermediates.

Exemplary Methods of Making the Compounds of the Invention.

The invention also relates to methods of making the compositions of the invention. The compositions are prepared by any of the applicable techniques of organic synthesis. Many such techniques are well known in the art. However, many of the known techniques are elaborated in "Compendium of Organic Synthetic Methods" (John Wiley Sons, New York), Vol. 1, Ian T. Harrison and Shuyen Harrison, 1971; Vol. 2, Ian T.

Harrison and Shuyen Harrison, 1974; Vol. 3, Louis.S..Hegedus and Leroy Wade, 1977; Vol. 4, Leroy G. Wade, Jr., 1980; Vol. 5, Leroy G. Wade, Jr., 1984; and Vol. 6, Michael B. Smith; as well as March, "Advanced Organic Chemistry, Third Edition", (John Wiley Sons, New York, 1985), "Comprehensive Organic Synthesis. Selectivity, Strategy Efficiency in Modern Organic Chemistry. In 9 Volumes", Barry M. Trost, Editor-in-Chief (Pergamon Press, New York, 1993 printing).

A number of exemplary methods for the preparation of the compositions of the invention are provided below. These methods are intended to illustrate the nature of such preparations are not intended to limit the scope of applicable methods.

Generally, the reaction conditions such as temperature, reaction time, solvents, workup procedures, and the like, will be those common in the art for -124- WO 98/17647 PCTIUS97/18193 the particular reaction to be performed. The cited reference material, together with material cited therein, contains detailed descriptions of such conditions.

Typically the temperatures will be -100'C to 200'C, solvents will be aprotic or protic, and reaction times will be 10 seconds to 10 days. Workup typically consists of quenching any unreacted reagents followed by partition between a water/organic layer system (extraction) and separating the layer containing the product.

Oxidation and reduction reactions are typically carried out at temperatures near room temperature (about 20'C), although for metal hydride reductions frequently the temperature is reduced to 0°C to -100°C, solvents are typically aprotic for reductions and may be either protic or-aprotic for oxidations. Reaction times are adjusted to achieve desired. conversions.

Condensation reactions are typically carried out at temperatures near room temperature, although for non-equilibrating, kinetically controlled condensations reduced temperatures (O°C to -100'C) are also common.

Solvents can be either protic (common in equilibrating reactions) or aprotic (common in kinetically controlled reactions).

Standard synthetic techniques such as azeotropic removal of reaction by-products and use of anhydrous reaction conditions inert gas environments) are common in the art and will be applied when applicable.

Exemplary methods of preparing the compounds of the invention are shown in the Schemes below.

General aspects of these exemplary methods are described below. Each of the products of the following processes is optionally separated, isolated, and/or purified prior to its use in subsequent processes.

The terms "treated", "treating", "treatment", and the like, mean contacting, mixing, reacting, allowing to react, bringing into contact, and other terms. common in the art for indicating that one or more chemical entities is treated in such a manner as to convert it to one or more other chemical entities. This means that "treating compound one with compound two" is synonymous with "allowing compound one to react with compound two", "contacting compound one with compound .two", "reacting compound one with compound two", and other expressions common in the art of organic synthesis for reasonably indicating that compound one was "treated", "reacted", "allowed to react", etc., with compound two.

"Treating" indicates the reasonable and usual manner in which organic chemicals are allowed to react. Normal concentrations (0.01M to -125- WO 98/17647 PCT/US97/18193 typically 0.1M to 1M), temperatures (-100 0 C to 250 0 C, typically -78 0 C to 150°C, more typically -78°C to 100°C, still more typically 0 C to 100 0 reaction vessels (typically glass, plastic, metal), solvents, pressures, atmospheres (typically air for oxygen and water insensitive reactions or nitrogen or argon for oxygen or water sensitive), etc., are intended unless otherwise indicated. The knowledge of similar reactions known in the art of organic synthesis are used in selecting the conditions and apparatus for "treating" in a given process. In particular, one of ordinary skill in the art of organic synthesis selects conditions and apparatus reasonably expected to successfully carry out the chemical reactions of the described processes based on the knowledge in the art.

-126- WO 98/17647 PCTIUS97/18193 Scheme 1 0H H N N,,C2H0H CO 2

CH

3 H3C J N D ."OH 3

I

H OH H 1 2 0R 11, I CO 2

CH

3

H

3 C

N

H OH 3 0R 1, CO 2

CH

3 0R 1 I C0 2

H

H3C 1 Nai

-H

3 C N H NH 2 H NH 2 4 In one embodiment, compounds of the invention are prepared as depicted in Scheme 1. Siastatin B from natural materials (Umezawa, H. et al. Antibiotics", 27:963-969 (1974) or ribose (Nishimura, Y. et al. Am.

Chem. Soc.", 110:7249-7250, 1988); and "Bull. Chem. Soc. Jpn.", 65:978-986, 1992) is available in either enantiomer. Conversion to compound 2 is accomplished by known methods (Nishimura, Y. et al. Antibiotics", 46(2):300-309, 1993).

Reductive alkylation to form 3 is accomplished by known methods (Nishimura, Y. et al. Antibiotics", 45(10):1662-1668,.1992). Conversion of the alcohol 3 to the amine 4 is accomplished by the -methods of Zbiral, E. et al.

"Liebigs Ann. Chem.", 129-134 (1991); and von Itzstein, M. et al. "Carbohydrate Res.", 244:181-185 (1993) Deprotection provides compound By way of example and not limitation, compounds 5 wherein

R

1 is ethyl (Et, -CH2CH3), l-propyl (n-Pr, n-propyl, -CH2CH2CH 3 1-butyl (n-Bu, nbutyl, -CH2CH2CH2CH 3 2 -methyl-1-propyl (j-Bu, i-butyl, -CH2CH(CH3)2), 1pentyl (n-pentyl, -CH2CH2CH2CH 2

CH

3 3-methyl-1-butyl CH2CH2CII(CH 3 2 2-methyl-1-butyl (-CH2CH(CH3)CH 2

CH

3 1-hexyl CH2CH2CH2CH2CH 2

CH

3 ),2-ethyl-1-butyl (-CH2CH(CH2CH 3 2 2-ethyl-4phenyl-1-butyl (-CH2CH(CH2CH 3 (CH2CH2Ph)), or 2 2 -phenylethyl)-4-phenyl-1 -butyl 127- WO 98/17647 PCT/US97/18193 (-CH2CH(CH2CH2Ph) 2 are prepared by the method of Scheme 1.

Scheme 2 O H N C 0 2 H O PgN CO 2

CH

3 H N- YN OH H3C N^Y H OH H OH 6 7 O P N

CO

2

CH

3

H

3 C H NH 2 8 PgN C 2

CH

3 H, CO 2

H

H3 K 0 2 H3f r r 0 H NR 2

R

3 H NR 2

R

3 9

III

R2R3.

O C 0 2H H31 0 N N I I H H In another embodiment, compounds of the invention are prepared as depicted in Scheme 2. The enantiomer of Siastatin B is prepared from ribose (Nishimura, Y. et al., Am. Chem. Soc.", 110:7249-7250, 1988); and "Bull. Chem. Soc. Jpn.", 65:978-986, 1992). Conversion to protected compound S 10 7 is accomplished by known methods Pg is Boc, Nishimura, Y. et al. "J.

Antibiotics", 46(2):300-309, 1993). Conversion of the alcohol 7 to the amine 8 is accomplished by the methods of Zbiral, E. et al. "Liebigs Ann. Chem.", 129-134, 1991; and von Itzstein, M. et al. "Carbohydrate Res.", 244:181-185, 1993.

Reductive alkylation to form 9 is accomplished by known methods -128- WO 98/17647 WO 98/ 7647PCTIUS97/18193 (Nishimura, Y. et al. Antibiotics", 45(10):1662-1668, 1992). Deprotection provides compound 10a. Compound 10a is compound By way of example and not limitation, compounds 10b wherein R 2 is H and R 3 is ethyl (Et, -CH2CH 3 l-propyl (n-Pr, n-propyl, -CH2CH2CH 3 1-butyl (n-Bu, n-butyl, -CH2CH2CH2CH 3 2 -methyl-l-propyl (j-Bu, i-butyl, -CH2CH(CH 3 2 l-pentyl (n-pentyl, -CH2CH2CH2CH 2

CH

3 3-methyl-1-butyI (-CH2CH2CH(CH 3 2 2-methyl-1-butyl (-CH2CH(CI-3)CH 2

CH

3 1-hexyl (-CH2CH2CH2CH2CH 2

CH

3 2-ethyl-1-butyl (-CH2CH(CH2CH 3 2 2-ethyl-4phenyl-1-butyl (-CH2CH(CH2CH3)(CH 2

CH

2 or 2-(2-phenylethyl)-4phenyl-1-butyl (-CH2CH(CH2CH 2 Ph) 2 are prepared by the method of Scheme 2.

Scheme 3 0 H N ,NC02 0 a iCO 2

CH

3

H

3 C H3"OH H 3

N

H OH H OH Pg,

CO

2

CH

3

H

3 C KN H NR 2

R

3 12 0 H C0 2

H

H

3 C JN H NR 2

R

3 13 In another embodiment, compounds of the invention are prepared as depicted in Scheme 3. Siastatin B from natural materials (Umezawa, H. et al., Antibiotics", 27:963-969, 1994) or ribose (Nishimura, Y. et al., Am.

Chem. Soc.", 110:7249-7250, 1988); and "Bull. Chem. Soc. Jpn.", 65:978-986, 1992) is available in either enantiomer. Conversion to protected compound 11 is accomplished by known methods Pg is Boc, Nishimura, Y. et al.,"J 129- WO 98/17647 PCT/US97/18193 Antibiotics", 46(2):300-309, 1993). Conversion of the alcohol 11 to the amine is accomplished by the methods of Zbiral, E. et al., "Liebigs Ann. Chem.", 129-134, 1991); and von Itzstein, M. et al., "Carbohydrate Res.", 244:181-185, 1993 and reductive alkylation to form 12 is accomplished by known methods (Nishimura, Y. et al. Antibiotics", 45(10):1662-1668, 1992). Deprotection provides compound 13.

By way of example and not limitation, compounds 13 wherein R 2 is H and R 3 is ethyl (Et, -CH2CH3), 1-propyl (n-Pr, n-propyl, -CH2CH2CH 3 1-butyl (R-Bu, n-butyl, -CH2CH2CH2CH 3 2 -methyl-1-propyl (j-Bu, i-butyl, -CH2CH(CH3) 2 1-pentyl (n-pentyl, -CH2CH2CH2CH 2

CH

3 3-methyl-1-butyI (-CH2CH2CH(CH 3 2 2-methyl-1-butyI (-CH2CH(CH3)C-H 2

CH

3 1-hexyl (-CH2CH2CH2CH2CH 2

CH

3 2-ethyl-1-butyI (rCH2CH(CH2CH 3 2 2-ethyl-4phenyl-1-butyl (-CH2CH(CH2CH 3 (CH2CH 2 or 2-(2-phenylethyl)-4phenyl-1-butyl (-CH2CH(CH2CH 2 Ph) 2 are prepared by the method of Scheme 3.

130- WO 98/17647 WO 98/ 7647PCT/US97/18193 Scheme 4 TrO~- r 0or--,

OH

TrO'I 102 TrOj

OTBDPS

HO

TrO

OTBDPS

N

3 CbzHN TrO 0. TrO OTBDPS OTBDPS CbzH HO7:

OTBDPS

107 PthN

OTBDPS

108 0 CbzN 0 AcHN

OTBDPS

110 AcHN 109 N 0 AcHN 131- WO 98/17647 Scheme PCTIUS97/18193 N 0 AcNOTBDPS ill HO

H

OTBDPS

112

N

AcHN i

OTBDPS

113 NN OH AcNOTBDPS 114 N OH AcN OTBDPS 115 132- WO 98/17647 Scheme 6 PCTIUS97/18193

~QOH

AcHN

OTBDPS

114 0 %%,IrOCH 3 AcHN

OTBDPS

0 NN H AcHN

OTBDPS

116 0 N~

OCH

3 AcHN

OH

0

OH

AcHN O 0 NOH N OOH 3 AcHNN q OTBDPS AcN TBDPS 115 0 120 AcHN EH 133- WO 98/17647 Scheme 7 PCTIUS97/18193 NHO

O

AcNOTBDPS 112 HOO0 N H AcHN

OTBDPS

122 HOO0 N OCH 3 AcHN

OTBDPS

123 0 X N OCH3 AcHN OTDP 117 0 fHN

OCH

3

OTBDPS

120 134- WO 98/17647 PCT/US97/18193 Scheme 4 is described in the Examples section below.

Scheme 5 and 6 are described below: Acetonide 111 is converted to the diol 112 by treatment with acid catalyst in methanol as described in "Protective Groups in Organic Synthesis" 2nd ed., T. W. Greene and P. G. M. Wuts, John Wiley Sons, New York, NY, 1991.

Diol 112 upon treatment with p-toluenesulfonyl chloride in pyridine solvent affords the primary tosylate which is converted to epoxide 113 with potassium carbonate in methanol. An example of such a transformation is described in Org. Chem." 57:86 (1992).

Epoxide 113 is transformed to allylic alcohols 114 and 115 by treatment with base. Isomerizations of epoxides to allylic alcohols are: described in "Org.

React." 29:345 (1983). The allylic alcohols are. then separated by standard chromatographic techniques. Alternatively, the synthesis of allylic alcohols is affected by sequential reaction with trimethylsilyl triflate and DBU as described in Am. Chem. Soc." 101:2738 (1979).

Allylic alcohol 114 is oxidized to the corresponding aldehyde 116 using MnO 2 Such oxidations are described in "Synthesis", 601 (1986). This oxidation is also accomplished with pyridine*SO 3 complex/DMSO/EtsN. An example of such a transformation is described in "Synthesis", 274 (1988).

a, p-Unsaturated aldehyde 116 is oxidized to the carboxylic acid methyl ester 117 by treatment with sodium cyanide, MnO 2 and acetic acid in methanol solvent as described in Am. Chem. Soc." 90:5616 (1968).

Deprotection of silyl ether 117 to alcohol 118 is carried out using tetrabutylammonium fluoride. Hydrolysis of the methyl ester to carboxylic acid 119 is conducted with potassium hydroxide. Both of these deprotection methods are described in "Protective.Groups in Organic Synthesis" 2nd ed., T.

W. Greene and P. G. M. Wuts, John Wiley Sons, New York, NY, 1991.

In a similar fashion as described for 114, allylic alcohol 115 is converted to carboxylic acid 121.

Diol 112 is oxidized with pyridine*SOs complex/DMSO/Et 3 N to afford a-hydroxyaldehyde 122 as described in Chem. Soc. Chem. Commun." 18: 2197 (1994). The same reference describes the oxidation of an ahydroxyaldehyde to the corresponding a-hydroxycarboxylic acid using NaC102/NaH2PO 4 /2-methyl-2-butene. Treatment of the carboxylic acid with diazomethane affords carboxylic ester 123. Such an esterification of a carboxylic acid is described in "Tetrahedron Lett." 1397 (1973).

a-Hydroxyester 123 is dehydrated to a mixture unsaturated esters 117 -135- WO 98/17647 PCT/US97/18193 and 120 with SOC1 2 and pyridine. Example of a similar reaction is described in Org. Chem." 60:2753 (1995).

Hydroxyesters 117 and 120 are deprotected to 119 and 121 respectively using conditions previously described.

Modification of the exemplary starting materials to form different El groups has been described in detail and will not be elaborated here. See Fleet, G.W.J. et al., Chem. Soc. Perkin Trans. 905-908 (1984), Fleet, G.W.J. et al., Chem. Soc., Chem. Commun.", 849-850 (1983), Yee, Ying K. et al., Med.

Chem.", 33:2437-2451 (1990); Olson, R.E. et al., "Bioorganic Medicinal Chemistry Letters", 4(18):2229-2234 (1994); Santella, J.B. III et al., "Bioorganic Medicinal Chemistry Letters", 4(18):2235-2240 (1994); Judd, D.B. et al., Med.

Chem.", 37:3108-3120 (1994) and De Lombaert, S. et al., "Bioorganic Medicinal Chemistry Letters", 5(2):151-154 (1994).

The El sulfur analogs of the carboxylic acid compounds of the invention are prepared by any of the standard techniques. By way of example and not limitation, the carboxylic acids are reduced to the alcohols by standard methods. The alcohols are converted to halides or sulfonic acid esters by standard methods and the resulting compounds are reacted with NaSH to produce the sulfide product. Such reactions are described in Patai, "The Chemistry of the Thiol Group" (John Wiley, New York, 1974), pt. 2, and in particular pages 721-735.

Modifications of each of the above schemes leads to various analogs of the specific exemplary materials produced above. The above cited citations describing suitable methods of organic synthesis are applicable to such modifications.

In each of the above exemplary schemes it may be advantageous to separate reaction products from one another and/or from starting materials.

The desired products of each step or series of steps is separated and/or purified (hereinafter separated) to the desired degree of homogeneity by the techniques common in the art. Typically such separations involve multiphase extraction, crystallization from a solvent or solvent mixture, distillation, sublimation, or chromatography. Chromatography can involve any number of methods including, for example, size exclusion or ion exchange chromatography, high, medium, or low pressure liquid chromatography, small scale and preparative thin or thick layer chromatography, as well as techniques of small scale thin layer and flash chromatography.

Another class of separation methods involves treatment of a mixture -136- WO 98/17647 PCT/US97/18193 with a reagent selected to bind to or render otherwise separable a desired product, unreacted starting material, reaction by product, or the like. Such reagents include adsorbents or absorbents such as activated carbon, molecular sieves, ion exchange media, or the like. Alternatively, the reagents can be acids in the case of a basic material, bases in the case of an acidic material, binding reagents such as antibodies, binding proteins, selective chelators such as crown ethers, liquid/liquid ion extraction reagents (LIX), or the like.

Selection of appropriate methods of separation depends on the nature of the materials involved. For example, boiling point, and molecular weight in distillation and sublimation, presence or absence of polar functional groups in chromatography, stability of materials in acidic and basic media in multiphase extraction, and the like. One skilled in the art will apply techniques most likely to achieve the desired separation.

Throughout the description and claims of this specification the word "comprise", 15 and variations of the word such as "comprising" and "comprises", is not intended to exclude other additives or components or integers or steps.

Examples The following Examples refer to the Schemes.

Example 1: Alcohol 101: To magnesium turnings (0.90 g, 37.2 mmol) in THF (50 mL) was added several drops of 1,2-dibromoethane as initiator followed by the addition of 2-bromopropene (4.5 g, 37.2 mmol) over a period of 1 h.

Additional 2 -bromopropene (0.68 g, 5.6 mmol) was added and stirred for 1.5 h.

To a slurry of Cul (0.7 g, 3.7 mmol) in THF (30 mL) at -30 0 C was added via cannula the grignard reagent over 15 min and was stirred an additional min at -30 0 C. A solution of epoxide 100 (9.4 g, 29.8 mmol) in THF (40 mL)-was then added to the grignard/CuI mixture and was stirred at -30 0 C for 1 h. The reaction was quenched at 0°C with saturated NH 4 Cl (100 mL) followed by the addition of IN NH 4 0H to dissolve precipitated solids. Brine was added and the product was extracted into ether. The organic phase was washed with brine, dried (MgSO 4 filtered and solvent was evaporated to afford alcohol 101 (11.8 g) which was suitable for further transformations: 'H NMR (CDC13) 6 7.51-7.27 15H), 4.84 1H), 4.77 1H, J 3.97 1H), 3.20 2H), 2.30 1H), 2.21 2H, J 1.76 3H).

-137- WO 98/17647 PCT/US97/18193 Example 2: Silyl ether 102: To a solution of alcohol 101 (1.77 g, 4.9 mmol) and imidazole (1.5 g, 22 mmol) in DMF (5 mL) was added tert-butyldiphenylsilyl chloride (2.0 g, 7.4 mmol). After stirring for 1 h at room temperature the reaction mixture was diluted with water and extracted with several portions of ether. The combined organic extracts were washed with water and brine and were dried (MgSO 4 filtered and evaporated. The residue was chromatographed on silica gel (20/1-hexane/ethyl acetate) to afford silyl ether 102 (2.85 g, 97%) as an oil: 'H NMR (CDC13) 8 7.73-7.65 4H), 7.49-7.20 (m, 21H), 4.56 1H), 4.50 1H), 4.02-3.98 1H), 3.11 2H), 2.45 (dd, 1H, J 13.5), 2.10 (dd, 1H, J 5.4, 13.5), 1.35 3H), 1.09 9H).

Example 3: Epoxide 103: To a solution of 102 (44.3 g, 74.2 mmol) in CH 2 C1 2 (600 mL) at 0°C was added NaHCO 3 (31 g, 371 mmol) and MCPBA (32 g, 50-60% MCPBA After stirring for 1 h at 0°C, water (100 mL) was added and the mixture was stirred for 1 h more. After evaporation of the CH 2 C1 2 the reaction was diluted with water and extracted with ether. The organic phase was washed with cold 0.5 M sodium thiosulfate, saturated NaHCO 3 brine and was dried (MgSO 4 filtered and evaporated. The residue was chromatographed on silica gel (2/1-CH2C1 2 /hexane) to afford epoxide 103 (35.2 g) as a 1.5:1 mixture of diastereomers.

Example 4: Allylic alcohol 104: To a solution of lithium diethylamide (generated from 11.5 mL diethylamine and 52 mL of 2.1 M butyl lithium in hexane) in ether (400 mL) at 0°C was added epoxide 103 (33.5 g) in ether (150 mL). The reaction was allowed to warm to room temperature and was stirred for 17 h. The reaction was cooled to 0°C and was poured into ice-water mixture (500 mL). The organic phase was washed with water, brine, and was dried (MgSO 4 filtered and evaporated. The crude product was chromatographed on silica gel 3 /1-hexane/ethyl acetate) to afford allylic alcohol 104 (15.4 g, 46%) as an oil: 'H NMR (CDC13) 5 7.75-7.65 4H), 7.53- 7.22 21H), 4.90 1H), 4.71 1H), 4.03 1H), 3.73 2H, J 3.16 (d, 2H, J 2.53 (dd, 1H, J 6.9, 13.8), 2.25 (dd, 1H, J= 5.1,13.8), 1.54 (br t, 1H, J 1.12 9H).

Example 5: Allylic azide 105: To a solution of alcohol 104 (13.1 g, 21.4 mmol) in CH 2 C1 2 (100 mL) at 0°C was added triethylamine (7.45 mL, 53.5 mmol) followed by methanesulfonyl chloride (1.82 g, 23.5 mmol). After 30 min at 0°C -138- WO 98/17647 PCT/US97/18193 cold water was added and CH 2 C1 2 was evaporated and the residue was partitioned between ether and water. The organic phase was washed with water, brine, and was dried (MgSO 4 filtered, and evaporated. The crude mesylate was dissolved in DMF (100 mL), sodium azide (2.8 g, 42.8 mmol) was added and the mixture was stirred at room temperature for 30 min. Volatiles were evaporated and the residue was partitioned between ether and water.

The organic phase was washed with water, brine and was dried (MgSO 4 filtered and evaporated. The crude product was chromatographed on silica gel (10/1-hexane/ethyl acetate) to afford allylic azide 105 (11.9 g, 87%) as an oil: 1H NMR (CDC13) 8 7.71-7.60 4H), 7.51-7.21 21H), 4.89 1H, J 4.78 (s, 1H), 3.97 1H), 3.36 2H), 3.10 2H, J 2.56 (dd, 1H, J 6.3, 13.8), 2.20 (dd, 1H, J 5.1, 13.8), 1.08 9H).

Example 6: Carbamate 106: To a solution of azide 105 (9.3 g, 14.6 mmol) in

CH

3 CN (100 mL) and water (5 mL) at 0°C was added trimethylphosphine (2.3 mL, 22 mmol). After stirring for 2 h at 0°C the reaction was warmed to room temperature and was stirred for 18 h. To the solution was added potassium carbonate (4.0 g, 29.2 mmol) and water (20 mL) followed by addition of benzyl chloroformate (3.1 mL, 95% purity, -21 mmol). The reaction was stirred for h and solvent was evaporated. Water was added and the organics were extracted into ether. The combined organic extracts were washed with brine, dried (MgSO 4 filtered, and evaporated. The residue was chromatographed on silica gel (3/1-hexane ethyl acetate) to afford carbamate 106 (10.6 g, 97%) as a thick oil: 'H NMR (CDC13) 8 7.72-7.60 4H), 7.51-7.20 26H), 5.08 (br s, 2H), 4.76 1H), 4.66 1H), 4.50 1H), 3.99 1H), 3.45 (dd, 1H, J 5.7, 16), 3.33 (dd, 1H, J 5.7, 16), 3.12 2H), 2.48 (dd, 1H, J 6.6, 13.8), 2.16 (dd, 1H, I 6, 13.8), 1.08 9H).

Example 7: Alcohol 107: To a solution of 106 (10.6 g, 14.2 mmol) in CH 2 C1 2 mL) and methanol (20 mL) at 0°C was added formic acid (25 mL). The solution was stirred at 0°C for 2.5 h and was then poured into saturated NaHCO 3 (600 mL) with stirring. The aqueous phase was saturated with NaC1 and extracted with ethyl acetate. The combined organic extracts were dried (MgSO4), filtered, and evaporated. The crude residue was chromatographed on silica gel (2/1hexane ethyl acetate) to afford alcohol 107 (5.9 g, 83%) as an oil: 'H NMR (CDC13) 8 7.73-7.68 4H), 7.50-7.34 11H), 5.09 2H), 4.92 1H, J 1.2), 4.79 1H), 4.68 1H), 3.92 1H), 3.60-3.39 4H), 2.36 (dd, 1H, J 8.4, -139- WO 98/17647 PCT/US97/18193 13.5), 2.15 (dd, 1H J 4.8, 13.5), 1.94 (br t, 1H) 1.10 9H).

Example 8: Phthalimide adduct 108: To a solution of DMSO (0.76 mL, 10.8 mmol) in CH 2 C1 2 (4 mL) at -78 0 C was added oxalyl chloride (0.39 mL, mmol). After stirring for 5 min a solution of alcohol 107 (2.19 g, 4.3 mmol) in

CH

2 C1 2 (5 mL) was added, stirred 25 min, Triethylamine (3 mL, 21.5 mmol) was added, the reaction was stirred at -78 0 C for 30 min and was warmed to room temperature. After 1 h the reaction was diluted with ether, filtered, and evaporated. The residue was dissolved in ethyl acetate, washed with water, brine and the organic phase was dried (MgSO 4 filtered, and evaporated. To a solution of the residue in DMF (20 mL) was added.Ph 3 P (2.2 g,.8.3 mmol) and phthalimide (1.22 g, 8.3 mmol) and the solution was cooled to 0°C at which time diethylazodicarboxylate (1.3 mL, 8.3 mmol) was added. The reaction was stirred at 0°C for 1 h and was warmed to room temperature stirring for 3.5 h.

Water was added to quench excess diethylazodicarboxylate and DMF was evaporated. The residue was chromatographed on silica gel ethyl acetate in CH 2 C1 2 Rechromatography of the mixed fractions ethyl acetate in

CH

2 C1 2 afforded phthalimide adduct 108 (1.95 g, 72%) as a foam. H NMR (CDC13) 5 7.83-7.08 19H), 5.98 (br d, 1H, J 5.22 1H, J 12.3), 4.97 (d, 1H, J 12.3), 4.88 1H), 4.71 1H), 4.60-4.52 2H), 4.20 (br d, 1H, I 16.2), 2.54 (dd, 1H, J 4, 15.6), 2.41-2.33 1H), 0.98 9H).

Example 9: Acetamide 109: A solution of 108 (4.2 g, 6.7 mmol) in MeOH (100 mL) was treated with hydrazine monohydrate (1.6 mL, 33 mmol) at 40 0 C for h. Solvent was evaporated and the residue was suspended in ethyl acetate and the solid residue was removed by filtration. Evaporation of the filtrate gave a residue which was dissolved in pyridine (30 mL), and cooled to 0°C. Acetic anhydride (6.9 mL, 73 mmol) was added and the reaction was warmed to room temperature stirring for 2 h. After evaporation of the volatiles the residue was dissolved in ethyl acetate and washed with water and brine. The organic phase was dried (MgSO 4 filtered, evaporated and chromatographed on silica gel (1/1 hexane-ethyl acetate) to afford 2.7 g of purified product. Precipitation from ether/hexane gave acetamide 109 (1.89 g, 52%) as a white solid. 'H NMR 8 7.69-7.62 4H), 7.45-7.32 11H), 6.23 1H, J= 5.22 (br d, 1H), 5.04 (br s, 2H), 4.76 1H), 4.56 1H, J 14.4), 4.03 (br s, 1H), 3.73 (br d, 1H), 2.43 (br d, 1H), 2.10 (br d, 1H), 1.93 3H), 1.02 9H) Example 10: Acetonide 110: To a solution of 109 (478 mg, 0.88 mmol) in -140- WO 98/17647 PCT/US97/18193 acetone (3 mL) was added 4 -methylmorpholine N-oxide (291 mg, 2.5 mmol) and 0.04M Os04 solution in water (1 mL). The reaction was stirred for 16 h at room temperature, cooled to 0°C and was treated with 10 sodium thiosulfate solution (10 mL). The mixture was diluted with brine and extracted with ethyl acetate. The combined organic extracts were dried (MgSO 4 filtered, evaporated and the residue was dissolved in ethyl acetate and filtered through a pad of silica gel. Evaporation of the filtrate gave a residue which was dissolved in acetone (10 mL) and was treated with dimethoxypropane (5 mL) and a catalytic amount of p-toluenesulfonic acid. After stirring for 15 min at room temperature saturated NaHCO 3 was added and solvents were evaporated. The product was extracted into ethyl acetate and the combined organic extracts were dried (MgSO 4 filtered, and evaporated. The residue chromatographed on silica gel (1/1 hexane-ethyl acetate) to afford acetonide 110 (465 mg, 85%) as a white solid. 'H NMR (CD30D) 5 7.62 (br s, 4H), 7.51-7.23 11H), 6.05 (br s, 1H), 5.20 (br d, 1H), 5.05 (br d, 1H), 4.11 3H), 3.71 (br s, 1H), 2.85 (br d, 1H), 2.04 1H), 1.91 3H), 1.62 1H), 1.41 3H), 1.18 (br s, 3H), 1.04 9H).

Example 11: N-alkyl derivative 111: A solution of 110 (465 mg, 0.75 mmol) was treated with 10% Pd/C (90 mg) and was stirred under hydrogen (balloon) for 4 h. The catalyst was removed by filtration (celite) and the filtrate was evaporated to afford a residue which was used directly. To a solution of the amine (324 mg, 0.67 mmol) in methanol (4 mL) was added 2ethylbutyraldehyde (0.83 mL, 67 mmol) and the solution was cooled to 0°C. To this solution was.added 1.34 mL of NaCNBH 3 /ZnC2 reagent prepared from NaCNBH 3 (314 mg, 5 mmol) and ZnCl 2 (340 mg, 2.5 mmol) in methanol mL). The reaction was stirred at 0°C for 40 min and was evaporated. The residue was partitioned between ether and 0.1N NaOH. The organic phase was dried (MgSO 4 filtered and evaporated. The residue was chromatographed on silica gel 2 /1-hexane/ethyl acetate) to afford N-alkyl derivative 111 (212 mg, 56%) as a white solid. An analytical sample was recrystallized from hexane as thin needles: mp 136-138 0 C; 'H NMR (CDC13) 8 7.76-7.66 4H), 7.50-7.36 6H), 5.58 1H, J 4.84 (dd, 1H, J 2.7, 4.26 1H, J 4.01 1H, J 3.74 1H, J 2.61 1H, J 11.7), 2.37 (dd, 1H, J 6,12.3), 2.30 1H, J 12), 2.20 (dd, 1H, J 5.7,12.6), 1.92 3H), 1.69 (dd, 1H, J 3.3, 14.1), 1.54-1.28 9H), 1.17 3H), 1.13 9H), 0.96-0.82 6H).

-141- WO 98/17647 PCT/US97/18193 All literature and patent citations above are hereby expressly incorporated by reference at the locations of their citation. Specifically cited sections or pages of the above cited works are incorporated by reference with specificity. The invention has been described in detail sufficient to allow one of ordinary skill in the art to make and use the subject matter of the following claims. It is apparent that certain modifications of the methods and compositions of the following claims can be made within the scope and spirit of the invention.

-142-

Claims (18)

1. A composition comprising a compound of formula (IX): J2 J N Ela T J2 G 2 a a wherein El is -(CRiRi)mi Wi; GI is N3, -CN, -OH, -OR6a, -N02, or -(CR1Rl)mlW2; Ti is -NR1W3, or a heterocycle; Jha are independen tly R1, Br, Cl, F, I, CN, N02 or N3; 10 J2 and J2a are independently H or Ri; R1 is independently H or alkyl of 1 to 12 carbon atoms; R2 is independently R3 or R4 wherein each R4 is independently substituted with 0 to 3 R3 groups; R3 is independently F, Cl, Br, 1, -CN, N 3 -NO 2 -OR 6 a, -OR 1 -N(Rl) 2 15 -N(Rj)(R6b), -N(R6b)2, -SR 1 -SR 6 a, -S(O)RI, -S(O) 2 Rl, -S(O)OR 1 -S(O)OR 6 a, -S(0) 2 0Rl, -S(0) 2 OR 6 a, -C(O)0RI, -C(O)R 6 c, -C(O)OR 6 a, 0OC(O)RI, -N(R 1 -N(R6b) -N(R (C(O)0Rj), -N(R 6 b)(C(O)ORj), -C(O)N(Rl) 2 -C(O)N(R 6 -C(O)N(R6b) 2 -C(NRl)(N(Rl) 2 fee*.: -C(N(R6b))(N(Rl) 2 -C(N(Rj))(N(RI)(R 6 -C(N(R6b))(N(Rj)(R 6 -C(N(Ri))(N(R 6 b) 2 -C(N(R6b))(N(R 6 b) 2 -N(Rj)C(N(R 1 1 2 'be. -N(Rj)C(N(Rj))(N(Rj)(R 6 -N(Rj)C(N(R 6 b))(N(Rj) 2 -N(R 6 b)C(N(Rl))(N(Rl) 2 -N(R6b)C(N(R 6 b))(N(Rj) 2 -N(R6b)C(N(Rj))(N(RI)(R 6 -N(Rj)C(N(R 6 6 -N(Rl)C(N(R))(N(R 6 b) 2 -N(R6b)C(N(R6b))(N(Rl)(R 6 -N(R 6 b)C(N(Rl -N(R 1 )C(N(R6b))(N(R 6 b) 2 -N(R6b)C(N(R6b))(N(R6b) 2 =N(R 1 or =N(R6b); R4 is independently alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms; is independently R4 wherein each R4 is substituted with 0 to 3 R3 groups; is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon atoms any one of which alkylene, alkenylene or alkynylene is substituted with 0-3 R3 groups; -143- WO 98/17647 PCT/US97/18193 R6a is independently H or an ether- or ester-forming group; R6b is independently H, a protecting group for amino or the residue of a carboxyl-containing compound; R6c is independently H or the residue of an amino-containing compound; W1 is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is a group comprising a basic heteroatom or a protected basic Sheteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R5, -C(O)W 5 -SO2R5, or is carbocycle or heterocycle wherein W5 is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b)(N(R6b)2), -C(NR6b)(N(H)(R6b)), -C(S)N(R6b)2, or -C(O)R2; and each mi is independently an integer from 0 to 2; provided, however, that compounds are excluded wherein J1a is H, each J 2 is H, J 2 a is H and T 1 is and: E 1 is -CO 2 H or -CO 2 CH 3 G 1 is -OBoc, and W6 is Boc; E 1 is -CO 2 H or -CO 2 CH 3 G 1 is -OH, and W6 is H; El is -CO 2 H, -CO 2 CH 3 or -CO2Bn G 1 is -OH, and W6 is Boc; E 1 is -CONH 2 G 1 is -OH, and W6 is Boc or H; E 1 is -CO 2 H or -CO 2 CH 3 G1 is OH, and -144- WO 98/17647 WO 9817647PCTIUS97/18193 W6 is Bn; or El is -CO 2 H or -CO 2 CH 3 G 1 is -OH, and W6 is -CH 2 CH(OH)CH 2 (OH); wherein Bn is benzyl and Boc is -CO 2 C(CH 3 3 and the salts, solvates, resolved enantiomers and purified diastereomers thereof.

2. A composition comprising a compound of formula Z 1 -N Z 2 T, N Jla NX wherein one Zj is W 6 and the other Zj is Gj; Z2 is HorW 6 El is -(CRiRi)mi Wl; G1 is 0OH, -OR6a or -(CRiRi)m1W2; Ti is -NRiW3 or a heterocycle; J1 and Jia are independently R1, Br, Cl, F, 1, CN, N02 or N3; J2 isH or Ri; Ri is independently H or alkylof 1 to 12 -carbon atoms; R2 is independently R3 or R4 wherein each R4 -is -independently substituted with 0 to 3 R3 groups; R3 is independently F, Cl, Br, I, -CN, N 3 -NO 2 -OR 6 a, 0OR 1 -N(Rl) 2 -N(R1)(R6b), -N(R6b)2, -SR 1 -SR 6 a, -S(O)Rl, -S(O) 2 Rl, -S(O)0R 1 -S(O)OR 6 a, -S(O) 2 0R 1 -S(0) 2 OR 6 a, -C(O)0R 1 -C(O)R 6 c, -C(O)OR 6 a, 0OC(O)Rl, -N(R 1 -N(R6b)(C(O)Rl), -N(R 1 -N(R6b)(C(O)OR1), -C(O)N(Rl) 2 -C(O)N(R6b)(Rl), -C(O)N(R6b) 2 -C(NR 1 )(N(Rl) 2 -C(N(R6b))(N(Rl) 2 -C(N(R1))(N(Rl)(R 6 -C(N(R6b))(N(RI -C(N(Rl))(N(R 6 b) 2 -C(N(R6b))(N(R 6 b) 2 -N(R 1 (N(Rl) 2 -N(Rj)C(N(Rl))(N(Rl)(R 6 -N(R1)C(N(R 6 b))(N(Rl -N(R6b)C(N(Rl))(N(Rj) 2 -N(R6b)C(N(R 6 (N(R 1 2

145- WO 98/17647 PCT/US97/18193 -N(R6b)C(N(Ri))(N(R1)(R 6 -N(R1)C(N(R 6 6 -N(Ri)C(N(RI))(N(R 6 b) 2 -N(R6b)C(N(R 6 R)(R 6 -N(R6b)C(N(R1))(N(R6b)2), -N(R1)C(N(R6b))(N(R6b)2), -N(R6b)C(N(R6b))(N(R 6 b) 2 =N(RI) or =N(R6b); R4 is independently alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms; is independently R4 wherein each R4 is substituted with 0 to 3 R3 groups; is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon atoms any one of which alkylene, alkenylene or alkynylene is substituted with 0-3-R3 groups; R6a is independently H or an ether- or .ester-forming. group; R6b is independently H, a protecting group for amino or the residue of a carboxyl-containing compound; R 6 c is independently H or the residue of an amino-containing compound; W1 is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is H or a group comprising a basic heteroatom or a protected basic heteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R5, -C(0)W 5 -SO2R5, or is carbocycle or heterocycle wherein W5 is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C()N(R6b)2, -C(NR6b)(N(R6b)2), -C(NR6b)(N(H)(R6b)), -C(S)N(R6b)2, or -C(0)R2; each mi is independently an integer from 0 to 2; and the salts, solvates, resolved enantiomers and purified diastereomers thereof. 3. The composition of Claim 1 wherein further excluded are compounds wherein G1 is -OH, -OR6a. 4. The composition of Claim 1 wherein G1 is -NR1W3. The composition of Claim 1 wherein the compound is of the formula: -146- WO 98/17647 PCT/US97/18193 V"3\N (XI) R 1 Al W3 R, 6. The composition of Claim 2 wherein the compound is of the formula: R, W 6 -N I' E, T1 N la (XII) J2 1 1 G 1 7. The composition of Claim 6 wherein G1 is R6b. 8. The composition of Claim 6 wherein R1 is H. 9. The composition of Claim 2 wherein the compound is of the formula: R, W6- N,, W -N W 3 (XIII) I I R 1 R 6 b The composition of Claim 1 or 2 wherein R6a is H or a protecting group for hydroxyl or thio. 11. The composition of Claim 1 or 2 wherein W 6 is C1-C3 alkyl substituted with 1 to 3 OR6a or SR6a, which OR6a or SR6a groups are stable to hydrolysis in gastrointestinal fluid. 12. The composition of Claim 1 or 2 wherein W6 is -(CH2)mlCH((CH2)m3R3)2, -(CH2)mlC((CH2)m3R 3 3 -(CH2)mlCH((CH2)m3R5aW5)2; -(CH2)mlCH((CH2)m3R3)((CH2)m3R5aW5); -(CH2)mlC((CH2)m3R3)2(CH2)m3R5aW5), (CH2)mlC((CH2)m3R5aW5)3 or -147- WO 98/17647 PCT/US97/18193 -(CH2)mlC((CH2)m3R3)((CH2)m3R5aW5)2 and m3 is an integer from 1 to 3. 13. The composition of Claim 1 or 2 wherein W6 is -R5, -W5 or 14. The composition of Claim 1 or 2 wherein W6 is The composition of Claim 14 wherein said R5 is R4 substituted with 0 to 3 -OR1. 16. The composition of Claim 14 wherein said R5 is R4 substituted with 0 to 3 -N02 or N3 groups. 17. The composition of Claim 15 wherein said -OR1 is present and at least one of said R1 is C4-C12. 18. The composition of Claim 1 or 2 wherein W6 is a branched chain group. 19. The composition of Claim 18 wherein said R5 is a branched R4 group. The composition of Claim 1 or 2 wherein W6 is R5e wherein R5e is normal or secondary alkyl of 1 to 12 carbon atoms substituted with 1-3 ORla or SR1a wherein Rla is C1-C4 alkyl. 21. The composition of Claim 20 provided that when W6 is R5 substituted with 1 to 3 R3 groups and at least one.R3 group is OH, COOH, NH2, C(O)H, C(O)NH2, S(O)20H, S(O)OH, C(N(H))NH2, or then said R5 is substituted with a single OH, COOH, NH2, C(O)H, C(O)NH2, S(O)20H, S(O)OH, N(H)(C(O)OH), C(N(H))NH 2 or =NH group. 22. The composition of Claim 21 wherein said R5 is alkyl of 4 to 8 carbon atoms substituted with 0 to 3 R3 groups. 23. The composition of Claim 21 wherein said R5 is substituted with 0 to 2 R3 groups. 24. The composition of Claim 23 wherein said R5 is substituted with 1 to 2 R3 groups and at least one said R3 group is -OH, -COOH, -NH2, -C(O)H, -148- WO 98/17647 WO 9817647PCTIUS97/18193 -C(O)NH2, -S(O)20H, -S(O)OH, -C(N(H))NH 2 or =NH. The composition of Claim 1 or 2 wherein W6 is R4 having 1 to 7 carbon atoms. 26. The composition of Claim 1 or 2 wherein said W6 is not CI-C3 alkyl substituted with OH or OH protected with an aralkyl, acyl, a silicon protecting r group or a tetrahydropyran. 27. The composition of Claim 26 wherein the. aralkyl, protecting group is benzyl, triphenylmethyl or diphenylmethyl;: the- acyl. group. is acetyl; and the silicon protecting group is trimethylsilyl. 28. The composition of Claim 1 wherein G1 is -NHRi, -N(R6b)(R1), -N(R6b)2, -N(R6b) -N(R5)2-C(NH)(NH2), N(R1)C(NR1)(NRlR 3 -NHC(NH)(NHR3), -NHC(NH)(NHRi), -NHC(NH)NH2), -CH(CH2NHR1)(CH2OH), -CH(CH2NHRl)(CH2NHRl), -CH(NHR1>-(CR1R1)m2-CH(NHR1)Rl, -CH(OH)..(CR1R1)m2-CH(NHR1)R1, or -CH(NHR1)..(CR1R1)m2-CH(OH)Rl, -(CR1R1)m2-S-C(NH)NH2, -N=C(NHR1)(R3) or -N=C(NHRi)(Ri); and m2 is independently an integer from 0 to 1. 29. The composition of Claim 2 wherein G1 is H, -NHRi, -N(R6b)(R1), -N(R6b)2, -N(R6b)(R5), -N(95)2, -C(NH)(NH2), -CH(CH2NHR1 )(CH2OH), -CH(CH2NHR1 )(CH2NHRl), -CH(NHR1)..(CR1R)m2-CH(NHRl)Rl, -CH(OH)>(CR1R1)m2-CH(NHR1)R1, or CH(NHR1)-(CR1R1)m2-CH(OH)Rl, or -(CR1R1)m2-S-C(NH)NH2; and m2 is independently an integer from 0 to 1. The composition of Claim 1 or 2 wherein W1 is -CO2R1. 31. The composition of Claim 1 or 2 wherein El is selected from the group consisting of: phenethyl ester of carboxyl,

149- WO 98/17647 WO 9817647PCT/US97/18193 0 OH' 0 0 0-OH 3 0 OH 3 0-K OH 3 4s- OH 3 0-/ 00H 3 H O OH 3 0 0 ZOH 0O-OH 3 -~OH y P 0-OH 3 0011 V s-O and N' N, N N 32. The composition of Claim 1 wherein G1 is amino, amidino or guanidino, or amino, amidino or guanidino substituted with Ci C6 alkyl.

150- WO 98/17647 PCTIUS97/18193 33. The composition of Claim 1 wherein Gi is consisting of: C1-C6 monoalkylamine, VNH2 J N H 2 NH 2 P V NH selected from the group NH 2 N H H <N Y NH NH 2 N y NH 2 H NH 2 c NH 2 V y NH2 OH 3 H COH 3 VNYN NH 2 H J/ N NH NH 2 V Y11rNH2 SCH 3 OH 3 J~N~N NH 2 CN "N NH 2 HN yN, H-N- N, NHZY NH

151- WO 98/17647 PCT/US97/18193 H I N, CH 3 H I ,N yCH3 CH 3 H CF 3 N N NH 2 H I N CH 3 H I OH HNN, H N NO 2 H I I< %N CH 3 H S N~ NH2 CH3 N" CH 3 OCH 3 N CH 3 and 34. atoms The composition of Claim 1 or 2 wherein W3 is The composition of Claim 1 or 2 wherein W6 is an alkyl of 1 to 6 carbon substituted with 0 to 3 F, Br, Cl, N3, N02 or CN. 36. The composition of Claim 1 or 2 wherein W5 is selected from the group consisting of: N H SN N N ,and N-S 37. The composition of Claim 1 or 2 wherein T1 is selected from the group consisting of:

152- WO 98/17647 PCT/US97/18193 0 0 0 O FH 2 CJN HFO 2 C N H 3 0C N FHC HF O O F C H I and 0 O 38. The composition of Claim 2 wherein J1 is H, C1-C2 alkyl or F. 39. The composition of Claim 1 or 2 wherein Jla is H. The composition of Claim 1 wherein J2a is H or C1-C2 alkyl. 41. The composition of Claim 1 wherein J2a is H. 42. The composition of Claim 1 or 2 wherein W6 is secondary or tertiary alkyl containing 4 to 12 carbon atoms which W6 is unsubstituted or substituted with N02, N3, F, Br, Cl, OR 1 or SR 1 43. The composition of Claim 42 which is substituted with nitro, azido or F. 44. The composition of Claim 1 or 2 wherein W6 is -(CH2)mlCH(R1)aW7 wherein W7 is an alkyl of 1 to 4 carbon atoms substituted with 0 to 3 R3, a is 0 or 1, and when a is 0 then W7 is joined to CH by a double bond. The composition of Claim 44 wherein W6 is -CH2CH(R1)W7. 46. The composition of Claim 45 wherein W7 is -CH20R1 and R1 is C4-C12 alkyl. 47. The composition of Claim 1 or 2 wherein W6 is (CH3CH2)2CH-, (CH3CH2)(CH3)(H)C-, (CH3)2(H)C-, (CH3)2CHCH2-, CH3(CH2)4-, CH3(CH2)3-, CH3(CH2)2-, (CH3CH2)(CH3)2C-, (CH3CH2)(CH3CH2)(H)C-, (CH3CH2CH2)(CH3CH 2 (CH3CH2CH2)(CH3CH2CH 2 (PhCH2CH2)(CH 3 CH 2 (PhCH2CH2)(PhCH 2 CH 2 (PhCH2)(CH3CH 2 (PhCH2)(PhCH2)(H)C-, cyclohexyl- or cyclopentyl-. 48. The composition of Claim 1 wherein: -153- WO 98/1 7647 PTU9/89 PCTIUS97/18193 El is 0 0 SO 0 (<OH 0 X0 6 a y 0-R 6 a H I N" N 'N Ilf N ,or Gi is -N(R5)2, -NH(R5)2, NH2 NH 2 V-1 N H H ~Ny'*fNH NH 2 YNyNH 2 NH 2 ~Ny NH 2 OH 3 NH 2 NH 2 H A, N yNH NH 2 ~NyNH 2 SOH 3 H OH 3 NH 2 H OH 3 N N NH 2 N NH 2 N N WN

154- WO 98/1 7647 PCTIUS97/18193 H N N, CH 3 H N O H 3 OH 3 H N CH 3 H H N H 2 OH 3 COH 3 11< NCH 3 or N H and W6 is an alkyl of 1 to 12 carbon atoms, alkenyl of 2-to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms and 'W6 is: substituted with 0. to .3 groups selected from the group consisting of F, Cl, Br, 1, -CN, N02, N3, -OR6a, -NR6bR6b, -SR6a, O0-C(O)R6a, or -NR6b-C(O)R6a.

155- WO 98/17647 WO 9817647PCT/US97/18193 49. The composition of Claim 48 wherein W6 is selected from the group consisting of (CH3CH2)2CH-, (CH3CH2)(CH3)(H)C-, (CH3)2(H)C-, (CH3)2CHCH2-, CH3(CH2)4-, CH3(CH2)3-, CH3(C- 2 2 (CH3CH2)(CH 3 2 C-, (CH3CH2)(CH3CH2)(H)C-, (CH3CH2CH2)(CH3CH 2 (CH3CH2CH2)(CH3CH2CH 2 (PhCH2CH2)(CH 3 CH 2 (PhCH2CH2) (PhCH2CH2)(H)C-, (PhCH2) (CH3CH2)(H)C-, (PhCH2)(PhCH2)(H)C-,cyclohexyl- or cyclopentyl-. The composition of Claim 2 wherein: El is o 0 OH 0-R 6 a H 0 01 x\O\0-R6a N" NN OH or Gi is H; and W6 is an alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms and W6 is substituted with 0 to 3 groups selected from the group consisting of F, Cl, Br, 1, -CN, N02, N3, -OR6a, -NR6bR6b, -SR6a, -0C(O)R6a, or -NR6b-C(0)R6a. The composition of Claim 50 wherein W6 is selected from the group consisting of (CH3CH2)2CH-, (CH3CH2)(CH3)(H)C-, (CH3)2(H)C-, .(CH3)2CHCH 2 CH3(CH2)4-, CH3(CH2) 3 .CH3(CH2) 2 (CH3CH2)(CH3)2C-, (C H3CH2)(CH3CH 2 (CH3CH2CH2) (CH3CH2)(H)C-, (CH3CH2CH2)(CH3CH2CH 2 (PhCH2CH2)(CH3CH 2 PhCH2CH2) (PhCH2CH2) (PhCH2)(CH3CH2)(H)C-, (PhCH2)(PhCH2)(H)C-,cyclohexyl- or cyclopentyl-.

156- 30/11 '01 FRI 14:52 FAX 613 9622 2294PHLIS RONE44ICMISOER []o PHILLIPS ORMONDE 444 IP COMMISSIONER IM004 A compound of formula (XX) or (XXa): G 2 J, G 2 J2 a JEE(XX) Ia' (XXa) T) A 3 jJaT, A 3 J 1 J 2 2 J2 Z3 Z 3 wherein A 3 is N, N(O) or N(S); Z.3 IS W 6 G 1 or R3a; El is -(CRjRI)mi W]; G] is N 3 -CN, OH1, -OR6a, -N0 2 or -(CRlRl)m]W2; is G 1 or -XlW 6 Ti is -NRIW 3 or a heterocycle; Jis R1, Br, Cl, F, I, CN, N02 or N 3 J2 is H- or RI; :J;2 is H or Rj; J 3 is 11 if X 1 is a bond; and J 3 is J2 if X 1 is -N(N(H)(W 6 Or -S02-; R1 is independently H- or alkyl of 1 to 12 carbon atoms; R2 is independently R3 or R4 wherein each R4 is independently substituted with 0 to 3 R3 groups;- R3 is independently F, Cl, Br, I, -CN, N 3 -NO 2 -OR 6 a, -OR 1 -N(R 1 2 -N(Rl)(R6b), -N(R6b)2, -SR 1 -SR6., -S(O)RI, -S(O) 2 Rj, -S(O)0RI, -S(O)OR6,, -S(O) 2 0RI, -S(O) 2 OR 6 a, -C(O)ORj, -C(O)OR 6 a, -OC(O)Rj, -N(R 1 -N(R6b)(C(O)Rj), -N(R 3 -N(R6b)(C(O)ORI), -C(N(R 6 -C(N(R1 )(N(RO(R6b))X -C(N(R6b))(N(RjO(Rb)), -C(N(R 1 (N(R6b)2), -C(N(R6b))(N(R6b) 2 -N(R 1 )C(N(R 1 1 -N(Rj)C(N(RI))(N(R)(R 6 -N(R1)C(N(R. 6 b))(N(RI) 2 -N(R)CN(R 6 -N(R.6C(N(R -N(R)C(N(R 6 (N(R -N(R 6 b)C(N(R6b))(N(R6b)2), =N(R 1 =N(R6b) or R3a is independently -CN, N 3 -NO, -NO 2 -OR6,, -OR 1 -N(RF 1 -N(lRl)(R6b), -N(R-6b)2, -SRI, -SR 6 a, -S(CYRI, -S(O)2RI, -S(O)0RI, -S(O)OR~a, 30/11 '01 FRI 14:46 [TX/RX NO 64661 WO 98/17647 WO 9817647PCTIUS97/18193 -S(O) 2 0Rj, -S(O) 2 OR 6 a, -C(O)0R 1 -C(O)R 6 c, -C(O)OR 6 a, 0OC(O)Rl, -N(R 1 -N(R6b)(C(O)Rl), -N(Ri)(C(O)0Rj), -N(R 6 b)(C(O)ORj), -C(O)N(Rl) 2 -C(O)N(R 6 -C(O)N(R6b) 2 -C(NR 1 )(N(Rl) 2 -C(N(R6b))(N(Rl) 2 -C(N(R 6 (N(R 1 -C(N(Rl))(N(R 6 b) 2 -C(N(R6b)) (N(R6b)2), -N(Rl)C(N(R 1 2 -N(Rj )C(N(Rl))(N(Rl)(R 6 -N(Rl)C(N(R 6 (N(R 1 -N(R6b)C(N(Rl))(N(Rj) 2 -N(R6b)C(N(R 6 b))(N(Rl) 2 -N(R6b)C(N(Rl))(N(Rl -N(Rj)C(N(R6b))(N(Rl)(R 6 -N(R 1 )C(N(Rl))(N(R 6 b) 2 -N(R6b)C(N(R6b))(N(Rl)(R 6 -N(R6b)C(N(Rl))(N(R 6 b) 2 -N(R1)C(N(R6b))(N(R 6 b) 2 or -N(R6b)C(N(R6b))(N(R 6 b) 2 R4j is independently alkyl of 1 to 12- carb on..atoms; .alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms; is independently R4 wherein each R4 is substituted with 0 to 3 R3 groups; is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon atoms any one of which alkylene, alkenylene or alkynylene is substituted with 0-3 R3 groups; R6a is independently H or an ether- or ester-forming group; R6b is independently H, a protecting group for amino or the residue of a carboxyl-containing compound; R6c is independently H or the residue of an amino-containing compound; W1 is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is a group comprising a basic -heteroatom or. a&protected basic heteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R5, -C(O)W 5 -SO2R5, or W5 is carbocycle or heterocycle wherein W5 is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b) (N(R6b)2), -C(NR6b)(N(H)(R6b)), -C -C(S)N(R6b)2, or -C(O)R2; X1 is a bond, -N(NH2)-, -N(N(H)(W 6 -N(H)N(W 6 or -S02-; and each mi is independently an integer from 0 to 2;

158- WO 98/17647 WO 9817647PCTIUS97/18193 provided, however, that compounds of formula (XX) are excluded wherein A 3 is N, each J1, J 2 J 2 a and J 3 is H and T 1 is and: El is -CO 2 H or -CO 2 CH 3 G 2 is -OBoc, and Z 3 is Boc; El is -CO 2 H or -CO 2 CH 3 G 2 is -OH, and Z 3 is H; El is -CO 2 H, -CO 2 CH 3 or -CO2Bn G 2 is -OH, and Z 3 is Boc; El is -CONH 2 G 2 is -OH, and Z 3 is Boc or H; El is -CO 2 H or -CO 2 CH 3 G 2 is OH, and Z 3 is Bn; or El is -CO 2 H or -CO 2 CH 3 G 2 is -OH, and Z3 is -CH 2 CH(OH)CH 2 (OH); wherein Bn is benzyl and Boc is -CO 2 C(CH 3 3 further excluded are compounds of the formula: (VII) or (VIII): UlK" N El E TJ2G, 2 a 1i TJ2G 1 2 a i (VII) (VilI) wherein El is -(CRiRi)mi WI;

159- WO 98/17647 WO 98/ 7647PCTIUS97/18193 Gi is N3, -CN, -OH, -OR6a, -NO 2 or -(CR1R1)mlW2; Ti is -NR1W3, a heterocycle, or is taken together with G1 to form a group having the structure Reb-N U1~ is -X1W6; J1. and Jha are independently R1, Br, Cl, F, 1, CN, N02 or N3; J2 and J2a are independently H or Ri; R1 is independently H or alkyl of. 1 to .12 carbon atoms; R2 is independently R3 or R4 .wherein- each.R4. is independently substituted with 0 to 3 R3 groups; R3 is independently F, Cl, Br, I, -CN, N 3 -NO 2 -OR 6 a, -ORI, -N(Rl) 2 -N(Ri)(R6b), -N(R6b)2, -SR 1 -SR 6 a, -S(O)Rl, -S(O) 2 Rl, -S(O)0RI, -S(O)OR 6 a, -S(O) 2 0R 1 -S(0) 2 OR 6 a, -C(O)0R 1 -C(O)R 6 c, -C(O)OR 6 a, 0OC(O)RI, -N(R 1 -N(R6b)(C(O)Rj), -N(R 1 -N(R6b) (C(O)0R 1 -C(O)N(Rl) 2 -C(O)N(R6b) -C(O)N(R 6 b) 2 -C(NR 1 )(N(Rl) 2 -C(N(R6b))(N(Rl) 2 -C(N(Ra))(N(R 1 -C(N(R6b))(N(Ri)(R 6 -C(N(Ri -C(N(R6b))(N(R 6 b) 2 -N(Ri)C(N(R 2 2 -N(Ri)C(N(Ri))(N(Ri) -N(R1)C(N(R 6 b))(N(Rl) 2 -N(R6b)C(N(Rl))(N(Rl) 2 -N(R6b)C(N(R 6 (N(Rj) 2 -N(R6b)C(N(RI))(N(RI -N(Rj)C(N(R 6 b))(N(Rl -N(Rj)C(N(Rj))(N(R 6 b) 2 -N(R6b)C(N(R 6 (N(R 1 -N(R6b)C(N(R1))(N(R 6 b) 2 -N(R1)C(N(R 6 (N(R6b)2), -N(R6b)C(N(R6b))(N(R 6 b) 2 =N(Rj) or =N(R6b); R4 is independently alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms; is independently R4j wherein each R4 is substituted with 0 to 3 R3 groups; is independently alkylene of 1 to 12 carbon atoms, alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-1.2 carbon atoms any one of which alkylene, alkenylene or alkynylene is substi-tuted with 0-3 R3 groups; R6a is independently H or an ether- or ester-forming group; R6b is independently H, a protecting group for amino or the residue of a carboxyl-containing compound; R6c is independently H or the residue of an amino-containing

160- WO 98/17647 PCT/US97/18193 compound; W1 is a group comprising an acidic hydrogen, a protected acidic group, or an R6c amide of the group comprising an acidic hydrogen; W2 is a group comprising a basic heteroatom or a protected basic heteroatom, or an R6b amide of the basic heteroatom; W3 is W4 or W4 is R5 or -C(O)R5, -C(O)W 5 -SO2R5, or -S02W5; is carbocycle or heterocycle wherein W5 is independently substituted with 0 to 3 R2 groups; W6 is -R5, -W5, -R5aW5, -C(O)OR6a, -C(O)R6c, -C(O)N(R6b)2, -C(NR6b)(N(R6b)2), -C(NR6b)(N(H)(R6b)), -C(S)N(R6b)2, or -C(O)R2; X1 is a bond, or -SO2-; and each mi is independently an integer from 0 to 2; and the salts, solvates, resolved enantiomers and purified diastereomers thereof. 53. The compound of Claim 52 comprising a compound of formula (XXI) or (XXIa): J2 J 2 a J WeN E W'6\ E Nj X X I X X I a T, Tj J2a G, J2 Gi 2 54. The compound of Claim 53 comprising a compound of formula (XXII) or (XXIIa): W6,N, El W 6 N E 1 T' T= m G1 G1 The compound of Claim 54 comprising a compound of formula (XXIII) -161- WO 98/17647 or (XXIIla): PCTIUS97/18193 (XXIII) (XXII1a) H I R N H R 56. The compound of Claim 52 comprising a compound of formula (XXIV) or (XXIVa): T, N J 2 a J 2 J 2 wherein (XXIV) (XXI Va) J 2 I one Zj is W 6 and the other Zj is Gj; and Z 2 is H or W 6 .57i. The compound of Claim 56 comprising a compound of formula (XXV) or (XXVa): W 6 -I W N 6- N J2a Ej (XXV) (XXVa) J 2 I 58. The compound of Claim 57 comprising a compound of formula (XXVI) or (XXVIa):

162- WO 98/17647 PCTIUS97/18193 W 6 N, E, VI W 6 /XVa orVI (XXVI~a) (XX VII) I(XX Vila) N N N H NR ,HIN 60. The compound of Claim 52 comprising a compound of formula (XX VIII) or (XXVIIIa): W6- J EW 6 -0 J2 J2a Tj N Ja (XXVIII) T, N J (XXVII1a) J 2 1 I2 J

163- WO 98/17647 PCTI/S97/18193 61. The compound of Claim 60 comprising a compound of formula (XXIX) or (XXIXa): W 6 0 E, w6-O. El 6T (XXIX) T E (XXIXa) T, N T, N I I G1 G .62. The compound of Claim 61 comprising a compound of formula (XXX) or (XXXa): W6- W3, (XXX) W3, (XXXa) T H N RN N H R 1 H N R 63 The compound of Claim 52 wherein G 2 is G 1 64. The compound of Claim 63 wherein G 1 is N3, -CN, -N02, or -(CR1R1)mlW2. The compound of Claim 64 wherein G1 is N3, -CN, or -N02. 66. The compound of Claim 64 wherein G 1 is -(CR1R1)mlW2. 67. The compound of Claim 66 wherein GI is amino,:amidino .or guanidino, or amino, amidino or guanidino substituted with C1 C6 alkyl. 68. The compound of Claim 66 wherein G1 is selected from the group consisting of: C1-C6 monoalkylamine, -164- WO 98/17647 PCTIUS97/18193 .N H 2 NH 2 NH 2 NH NH 151,Ny'*rNH NH 2 IsrN y NH 2 H H OH 3 N yN NH 2 EN H -NH N N, CH 3 N H 2 OH 3 H rCH3 NH 2 H yNH NH 2 I~ N yNH2 SCH 3 9*1 H 3 NH 2 N' iif N, H rs NH 2 HN yN,. H" NCN -1 H qK-,OH 3 <N""OH3 H H N O H 3 O OH 3 H NH 2 H rOF3 <NyN NH 2 HN y NH H-N- N0 2 and CrH3 N C H andN O H 3 69. The compound of Claim 52 wherein G 2 is -X 1 W 6

165- WO 98/17647 PCT/US97/18193 The compound of Claim 52 wherein W2 is amino, aminoalkyl, amidinyl, amidinoalkyl, guanidinyl, or guanidinoalkyl. 71. The compound of Claim 52 wherein W2 is amino, amidino, guanidino, heterocycle, heterocycle substituted with 1 or 2 amino or guanidino groups, or an alkyl of 2 to 3 carbon atoms substituted with amino or guanidino, or such alkyl substituted with an amino and a second group selected from the group consisting of hydroxy and amino. 72. The compound of Claim 71 wherein said heterocycles are 5 or 6 membered rings containing 1 or 2 N or S :atoms. 73. The compound of Claim 52 wherein G2 is -NHRi, -C(NH)(NH2), -NRj- C(NRI) (NRi R3), -NH-C(NH) (NHR3), -NH-C(NH) (NHRi), -NH-C(NH)NH2, -CH(CH2NHR1)(CH 2 OH), -CH(CH2NHRl )(CH2NHRj), -CH(NHRi (CR1R1)m2-CH(NHR1)Rl, CH(OH)-(CRlR1)m2-CH(NHRl)Rl, or -CH(NHR1)-(CRjRj)m 2 -CH(OH)R, -(CR1R1)m2-S-C(NH)NH 2 -N=C(NHR1)(R 3 -N=C(SRi )N(Rl)2, -N(Ri)C (NH)N(Ri)C=N, or -N=C(NHRl)(Ri). 74. The compound of Claim 52 wherein G 2 is -NHRI, -N(R6b)(Rl), N(R6b)2, -N(H)(R 5 -N(R6b)(R5), -N(R5)2, -C(NH)(NH 2 -CH(CH2NHRI )(CH2OH), -CH(CH2NHRl )(CH2NHR1), -CH(NHRi (CR1R1)m2-CH(NHR1)Rl, -CH(OH)-(CRIR1)m2-CH(NHRl)Rl, or -CH(NHR1)-(CR1R1)m2-CH(OH)Rl, or -(CR1RI-)m2-S C(NH)NH 2 -and m2 is independently an integer from 0 to 1. The compound of Claim 52 wherein G2 is -NHRi. 76. The compound of Claim 52 wherein El is W 1 77. The compound of Claim 76 wherein W1 is -C02R5. 78. The compound of Claim 77 wherein R5 is R4. 79. The compound of Claim 78 wherein R4 is Ri.

166- WO 98/17647 PCT/US97/18193 The compound of Claim 1, 2 or 52 wherein El is -COOH, or a carboxyl ester or carboxylamide that is hydrolyzable in vivo to -COOH. 81. The compound of Claim 52 wherein El consisting of: phenethyl ester of carboxyl, O 0 OH O-CH3 is selected from the group O- CH 3 0- 0 CH 3 O- 0 0 O /-CH3 CH, 0- CH 3 O CH 3 Y SOH 0 O ,OH p' OH /O-CH 3 SPO-CH 3 and H N IN, x 82. The compound of Claim 52 wherein T 1 is -N(R 1 )(W 3 83. The compound of Claim 82 wherein R 1 is H. 84. The compound of Claim 83 wherein W3 is The compound of consisting of: O H3C N H Claim 84 wherein T- is selected from the group 0 FH2C' NA H O HF2CO Ni H 0 F 3 C N N 0-S O C: and 86. The compound of Claim 52 wherein J1 is H, C1-C2 alkyl or F. -167- WO 98/17647 PCTIUS97/18193 87. The compound of Claim 86 wherein Ji is H. 88. The compound of Claim 52 wherein J2 is H or C1-C2 alkyl. 89. The compound of Claim 88 wherein J2 is H. The compound of Claim 52 wherein J2a is H or C1-C2 alkyl. 91. The compound of Claim 90 wherein J2a is H. 92. The compound of Claim 5 wherein R6a is H or a protecting group for hydroxyl or thio. 93. The compound of Claim 52 wherein A 3 is N. 94. The compound of Claim 52 wherein Z 3 is R 3 a and G 2 is -X 1 W 6 The compound of Claim 52 wherein Z 3 is W 6 and G 2 is G1. 96. The compound of Claims 94 or 95 wherein W6 is C1-C3 alkyl substituted with 1 to 3 OR6a or SR6a. 97. The compound of Claim 96 wherein said OR6a or SR6a groups are stable to hydrolysis in gastrointestinal fluid. 98. The compound of Claims 94 or 95 wherein W6 is -(CH2)mlCH((CH2)m3R3)2, -(CH2)mlC((CH2)m3R3)3; -(CH2)mlCH((CH2)m3R5aW5)2; -(CH2)mlCH((CH2)m3R3)((CH2)m3R5aW5); -(CH2)mlC((CH2)m3R3)2(CH2)m3R5aW5), (CH2)mlC((CH2)m3R5aW5)3 or -(CH2)mlC((CH2)m3R3)((CH2)m3R5aW5)2 and m3 is an integer from 1 to 3. 99. The compound of Claims 94 or 95 wherein W6 is -R5, -W5 or 100. The compound of Claim 99 wherein W6 is 101. The compound of Claim 100 wherein said R5 is R4 substituted with 0 to 3 -OR1. -168- WO 98/17647 PCT/US97/18193 102. The compound of Claim 101 wherein said -OR1 is present and at least one of said R1 is an alkyl of 1 to 12 carbon atoms.. 103. The compound of Claim 100 wherein said R5 is R4 substituted with 0 to 3 -N02 or N3 groups. 104. The compound of Claims 94 or 95 wherein W6 is a branched chain group. 105. The compound of Claim 104 wherein said R5 is a:branched R4 group. 106. The compound of Claims 94 or 95 wherein W6 is R5e wherein R5e is normal or secondary alkyl of 1 to 12 carbon atoms substituted with 1-3 ORla or SR1a wherein Rla is C1-C4 alkyl. 107. The compound of Claims 94 or 95 wherein W6 is R4 substituted with 1 to 3 R3 groups wherein one and only one R3 group is OH, COOH, NH2, C(O)H, C(O)NH2, S(O)20H, S(O)OH, C(N(H))NH2, or 108. The compound of Claims 94 or 95 wherein W 6 is an alkyl of 1 to carbon atoms substituted with 0 to 3 R3 groups. 109. The compound of Claim 108 wherein W6.is an alkyl of 2 to. 8 carbon atoms substituted with 0 to 3 R3 groups. 110. 'The compound of Claim 108 wherein W 6 is an alkyl of 3 to 8 carbon atoms substituted with 0 to 3 R3 groups. 111. The compound of Claim 108 wherein W 6 is an alkyl of 4 to 8 carbon atoms substituted with 0 to 2 R3 groups. 112. The compound of Claim 108 wherein W 6 is an alkyl of 4 to 6 carbon atoms substituted with 0 to 1 R3 groups. 113. The compound of Claim 108 wherein said W 6 is substituted with 0 to 2 -169- WO 98/17647 PCT/US97/18193 R3 groups. 114. The compound of Claim 113 wherein R3 group is F, Br, Cl, -OH, -COOH, -NH2, -C(O)NH2, -S(0)20H, -S(O)OH, -C(N(H))NH2, or =NH. 115. The compound of Claims 94 or 95 wherein W6 is secondary or tertiary alkyl containing 1 to 12 carbon atoms which W6 is unsubstituted or substituted -with N02, N3, F, Br, Cl, OR 1 or SR 1 116. The compound of Claim 115 which.:is substituted, with nitro, -azido or F. 117. The compound of Claims 94 or 95 wherein W6 is -(CH2)ml'CH(R1)aW7 wherein W7 is an alkyl of 1 to 4 carbon atoms substituted with 0 to 3 R3, a is 0 or 1, and when a is 0 then W7 is joined to CH by a double bond. 118. The compound of Claim 117 wherein W6 is -CH2CH(R1)W7. 119. The compound of Claim 118 wherein W7 is -CH20R1 and R1 is C4-C12 alkyl. 120. The compound of Claims 94 or 95 wherein W6 is (CH3CH2)2CH-, (CH3CH2)(CH3)(H)C-, (CH3)2(H)C-, (CH3)2CHCH2-, CH3(CH2)4-, CH3(CH2)3-, CH3(CH2)2-, (CH3CH2)(CH3)2C-, (CH3CH2)(CH3CH 2 (CH3CH2CH2)(CH3CH 2 (CH3CH2CH2)(CH3CH2CH 2 (PhCH2CH2)(CH3CH 2 (PhCH2CH2)(PhCH2CH2)(H)C-, (PhCH2)(CH3CH2)(H)C-, (PhCH2)(PhCH2)(H)C-,.cyclohexyl- or cyclopentyl-. -170- WO 98/17647 PCTIUS97/18193 121. The compound of Claims 94 or 95 wherein: El is OH 0- R 6 a 0 S OH 0 P ~SOH 0 0- R6a 0\ R 6 a N N It or G1 is -N(RS)2, -NH(R5)2, ~NH 2 H NyNH NH 2 Jr/ NH 2 NH 2 V--NH N 2 N y NH 2 H H OH 3 N N NH 2 NH 2 N yNH 2 CH 3 r ~CH 3 NyN NH 2 JAN NH NH 2 sNYNH 2 SCH 3 H CH 3 NH 2 N 1 N,-NH2 N HN N- W N, CN H NZI NH 2 -171- WO 98/17647 WO 9817647PCT/US97/18193 H H H N CH 3 NICH N OH 3 CH H H H I II ~N O H 3 HN H OH 3 OH 3 KH3 N N CH 3 or -and W6 is an alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon atoms and W6 is substituted with 0 to 3 groups selected from the group consisting of F, Cl, Br, 1, -CN, N02, N3, -OR6a, -NR6bR6b, -SR6a, .O..C(O)R6a, or -NR6b-C(O)R6a. 122. The compound of Claim 121 wherein W6 is selected from the group consisting of (CH3CH2)2CH-, (CH3CH2)(CH3)(H)C-, (CH3)2(H)C-, (CH3)2CHCH 2 CH3(CH2) 4 CH3(CH 2 3 CH3(CI- 2 2 (CH3CH2)(CH3)2C-, (CH3CH2)(CH3CH 2 (CH3CH2CH2)(CH3CH 2 (CH3CH2CH2)(CH3CH2CH 2 (PhCH2CH2)(CH 3 CH 2 (PhCH2CH2)(PhCH2CH 2 (PhCH2)(CH3CH 2 (PhCH2)(PhCH2)(H)C-,cyclohexyl- or cyclopentyl-. 123. The compound of Claim 1, 2 or 52 further comprising a pharmaceutically-acceptable carrier. 124. A method of inhibiting the activity of neuraminidase comprising the step of contacting a sample suspected of containing neuraminidase with the compound of Claim 1, 2 or 52. 125. A compound named in Table 6. 2 5 126. A composition according to claim 1 substantially as hereinbefore described with reference to any one of the examples.

172- 127. A composition according to claim 2 substantially as hereinbefore described with reference to any one of the examples. 128. A compound according to claim 52 substantially as hereinbefore described with reference to anyone of the examples. DATED: 26 November 1999 PHILLIPS ORMONDE FITZPATRICK Attorneys for: GILEAD SCIENCES, INC. 9 *9* 9 17