JPS61243074A - 2,4-dideoxysialic acid derivative - Google Patents

2,4-dideoxysialic acid derivative

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Publication number
JPS61243074A
JPS61243074A JP6974285A JP6974285A JPS61243074A JP S61243074 A JPS61243074 A JP S61243074A JP 6974285 A JP6974285 A JP 6974285A JP 6974285 A JP6974285 A JP 6974285A JP S61243074 A JPS61243074 A JP S61243074A
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Japan
Prior art keywords
formula
compound
acetyl
yield
solvent
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP6974285A
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Japanese (ja)
Inventor
Haruo Ogura
小倉 治夫
Kimio Furuhata
古畑 公夫
Masayoshi Ito
伊藤 正善
Yoshiyasu Shidori
志鳥 善保
Katsuko Anazawa
穴沢 克子
Chigusa Udo
宇土 千草
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Mect Corp
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Mect Corp
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Priority to JP6974285A priority Critical patent/JPS61243074A/en
Publication of JPS61243074A publication Critical patent/JPS61243074A/en
Pending legal-status Critical Current

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Abstract

NEW MATERIAL:The 2,4-dideoxysialic acid derivative of formula I [R1 and R2 are independent H or O-acetyl (R1 and R2 are not H at the same time); R3 is carboxyl or methoxycarbonyl; all R4 groups are same and are hydroxymethyl or O-acetyl]. EXAMPLE:Methyl 2-deoxy-2,3-dehydro-4,7,8,9-tetra-O-acetyl-N-acetyl-neuraminate. USE:A medicinal drug capable of activating suppressor T-cell and having immune regulating action to suppress the immunoglobulin production of B-cell. PREPARATION:The compound of formula III is produced by reacting the com pound of formula II with acetic anhydride in the presence of a relatively small amount of concentrated sulfuric acid at about 20-25 deg.C, or the compound of formula IV is obtained by reacting the above components in the presence of a relatively large amount of concentrated sulfuric acid at about 80-90 deg.C.

Description

【発明の詳細な説明】 本発明は免疫学的に活性な、シアル酸誘導体及びその製
造方法に関する。シアル酸は、動物界あるいはいくつか
の細菌の細胞表面にシアロ複合体(I!蛋白、糖脂質、
オリゴ糖、および多糖)として存在することが知られて
いる。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to immunologically active sialic acid derivatives and methods for their production. Sialic acid is present in sialocomplexes (I! proteins, glycolipids,
It is known to exist as oligosaccharides and polysaccharides.

この化合物は近年、神経機能、癌、炎症、免疫、ウィル
ス感染、分化、ホルモンレセプターなど、医学ならびに
薬学的に重要視され、細胞表面に局在する特異な活性分
子として注目されつつある。In recent years, this compound has become important in medical and pharmaceutical fields such as neurological function, cancer, inflammation, immunity, viral infection, differentiation, and hormone receptors, and is attracting attention as a unique active molecule localized on the cell surface.

しかしながらシアロ複合体においてシアル酸の演する役
割については、いまだ推測の域を出るものではない。However, the role played by sialic acid in the sialo complex is still a matter of speculation.

この化合物は更に、多くの天然物有機化学者によって研
究され、既に単純な各種誘導体に導かれている。しかし
ながら顕著な生理活性誘導体はまだ知られていない。そ
れ数本発明は、優れた生理活性を有する新規化合物を得
ることにある。This compound has been further studied by many natural product organic chemists and has already led to various simple derivatives. However, no significant physiologically active derivatives are known yet. The object of the present invention is to obtain a novel compound having excellent physiological activity.

さらに近年、造血臓器の悪性腫瘍をはじめ、各種癌疾患
、膠原病などの治療の多角化によって、確かに延命効果
がもたらされている。しかしその反面、使用する薬剤例
えば副腎皮質ホルモン剤や、免疫抑制剤の使用の頻度の
増加することがさけられず、その結果いわゆる免疫力の
低下・減少と共に、多くの副作用がおこりつつある。本
発明者等は、生体固有成分であるシアル酸に注目し、そ
の化学的修飾によって副作用が少なく、かつ免疫監視機
構の調整作用をもつ、免疫調整剤の研究を鋭意行ない、
その結果抑制T細胞を活性化し、B細胞の免疫グロブリ
ン産生を抑制するいわゆる免疫調整作用を持つ本発明の
新規化合物に到達したのである。Furthermore, in recent years, the diversification of treatments for malignant tumors of hematopoietic organs, various cancer diseases, collagen diseases, etc. has certainly had a life-extending effect. However, on the other hand, the frequency of use of drugs such as adrenocortical hormones and immunosuppressants cannot be avoided, and as a result, many side effects are occurring as well as a decrease in so-called immunity. The present inventors have focused on sialic acid, which is a component unique to living organisms, and have conducted intensive research into immunomodulators that have fewer side effects and have the ability to regulate the immune surveillance mechanism through chemical modification of sialic acid.
As a result, we have arrived at a novel compound of the present invention that has so-called immunomodulatory effects that activate suppressor T cells and suppress immunoglobulin production by B cells.

すなわち、本発明は (式中、R1およびR2は独立に水素または〇−アセチ
ル基であり、但しR,およびR2の両者が共に0−アセ
チル基である場合は除く、R3はカルボキシル基、また
はメトキシカルボニル基であり、R4は全て同じであっ
てヒドロキシル基またはO−アセチル基である) で表わされるシアル酸誘導体に関する。That is, the present invention provides (in the formula, R1 and R2 are independently hydrogen or 0-acetyl group, except when both R and R2 are 0-acetyl group, R3 is carboxyl group or methoxy (all R4s are the same and are a hydroxyl group or an O-acetyl group).

本発明の上記式(1)のシアル酸誘導体の製造方法につ
き、以下説明する。The method for producing the sialic acid derivative of formula (1) of the present invention will be explained below.

まず、下記の式(II)で示される公知化合物を、無水
酢酸および濃硫酸と反応条件を変えて、夫々式(I[[
)の化合物または式(TV’)の化合物を得る。First, a known compound represented by the following formula (II) was reacted with acetic anhydride and concentrated sulfuric acid under different reaction conditions, respectively, and the formula (I[[
) or a compound of formula (TV') is obtained.

目  Φ 1−/  Σ 上記反応に於いて、濃硫酸を比較的少量(〔■〕3mm
olに対し約10〜20mg)使用し、反応温度約20
〜25℃で行なうと式(Ill)の化合物が得られ、一
方濃硫酸を比較的多量(〔■) 3mmolに対し約0
.08〜0.12g)使用し、反応温度約80〜90℃
で行なうと式(IV)の化合物が得られることがわかっ
た。従来、V、Kumar等は〔■〕3mmolに対し
濃硫酸を100mg使用し、反応温度約50℃で行なっ
ており、得られる反応生成物は式(III)と式(mV
)の化合物(混合比1:1)であり、その分離、晴製は
困難であり、生成物を加水分解し、高速液体クロマトグ
ラフィーで分離するという煩雑な工程を要していた(V
、Kumar et al。Φ 1-/Σ In the above reaction, a relatively small amount of concentrated sulfuric acid ([■] 3 mm
(approximately 10 to 20 mg per ol), and the reaction temperature was approximately 20
When carried out at ~25°C, a compound of formula (Ill) is obtained, while concentrated sulfuric acid is added in a relatively large amount ([■) about 0 to 3 mmol.
.. 08~0.12g), reaction temperature approximately 80~90℃
It has been found that a compound of formula (IV) can be obtained by carrying out the procedure. Conventionally, V, Kumar et al. used 100 mg of concentrated sulfuric acid for 3 mmol of [■] and carried out the reaction at a temperature of about 50°C, and the resulting reaction products had the formula (III) and the formula (mV
) compound (mixing ratio 1:1), its separation and clear production were difficult, requiring a complicated process of hydrolyzing the product and separating it by high performance liquid chromatography (V
, Kumar et al.

Carbohydr、 Res、、 94% 123〜
l 30頁、1981年)。これに対し、本願発明者ら
の方法によれば、式(m)および式(IV)の化合物を
夫々別個に容易に合成し得る。Carbohydr, Res, 94% 123~
l p. 30, 1981). In contrast, according to the method of the present inventors, the compounds of formula (m) and formula (IV) can be easily synthesized separately.

次に、上記式(III)および式(IV)の化合物を種
々の条件で還元し本発明の弐[)を得る。Next, the compounds of formula (III) and formula (IV) above are reduced under various conditions to obtain 2[) of the present invention.

U 上記還元反応に於いて、式(1)の化合物をメタノール
の如きアルコール溶媒中、カーボン担持式(1)−1で
示される化合物が得られる。U In the above reduction reaction, the compound of formula (1) is supported on carbon in an alcohol solvent such as methanol to obtain a compound represented by formula (1)-1.

また、式(III)の化合物をメタノール−酢酸(3:
1)の混合溶液中10%Pd−Cを触媒とし約20〜2
5℃で水素気流中で約2時間遠元すると式(1)−2で
示される化合物が得られる。Alternatively, the compound of formula (III) may be mixed with methanol-acetic acid (3:
Using 10% Pd-C as a catalyst in the mixed solution of 1),
A compound represented by formula (1)-2 is obtained by centrifugation at 5° C. in a hydrogen stream for about 2 hours.

また、式(IV)の化合物を上記と同様にしてメタノー
ル−酢酸混合溶液中10%Pd−Cを触媒とし還元する
と式[1)−3で示される化合物が得られる。Further, when the compound of formula (IV) is reduced in the same manner as above using 10% Pd-C as a catalyst in a methanol-acetic acid mixed solution, a compound represented by formula [1)-3 is obtained.

次に、上記式(1)−2および式(1)−3の化合物を
夫々、約1〜2Nの苛性ソーダ溶液を用い約20〜25
℃で約−12〜20時間加水分解スルト、O−7セチル
基がヒドロキシル基に、メトキシカルボニル基がカルボ
キシル基に変換された本発明の化合物が得られる。Next, the compounds of formulas (1)-2 and (1)-3 above were added to about 20-25% of the compound using about 1-2N caustic soda solution, respectively.
C. for about -12 to 20 hours, a compound of the invention is obtained in which the O-7 cetyl group is converted into a hydroxyl group and the methoxycarbonyl group is converted into a carboxyl group.

尚、本発明の化合物の中間体である前記式(III)お
よび(TV)の化合物は、夫々硝酸セリウムアンモニウ
ム−アジ化ナトリウムまたはN−プロモスシンイミド−
ベンジルアルコールと反応させて規なアジ化誘導体およ
びブロム化誘導体を合成出来、その詳細は後記の参考例
に示す。The compounds of the formulas (III) and (TV), which are intermediates of the compounds of the present invention, are cerium ammonium nitrate-sodium azide or N-promoscinimide-
By reacting with benzyl alcohol, regular azide derivatives and brominated derivatives can be synthesized, the details of which are shown in the reference examples below.

かくして得られた一般式(1)の化合物は、夫々顕著な
免疫調整作用を有する。The compounds of general formula (1) thus obtained each have a remarkable immunomodulating effect.

該免疫調整作用は、次のような方法により確認すること
ができた。The immunomodulatory effect could be confirmed by the following method.

ConAによるマウス肺臓リンパ球活性化に対する作用
: T細胞は、ConAにより非特異的に活性化されるが、
この反応系に本発明のシアル酸誘導体を加え、その作用
を検討した。即ち、BALB/Cマウスより得た肺臓リ
ンパ球(S P C”)にConA及び一般式CI)の
化合物を夫々加え、ミクロプレート上で37℃で5%C
Otを与えながら20数時間培養した。Effect of ConA on activation of mouse lung lymphocytes: T cells are activated nonspecifically by ConA;
The sialic acid derivative of the present invention was added to this reaction system, and its effect was investigated. Specifically, compounds of ConA and general formula CI) were added to lung lymphocytes (SPC'') obtained from BALB/C mice, and the mixture was incubated at 37°C with 5% C on a microplate.
The cells were cultured for 20 hours while being fed Ot.

これに、トリチウムで標識したチミジンを加え、さらに
37℃で10数時間培養後、spcを収集し、シンチレ
ーションカウンターでSPCに取す込まれた3H−チミ
ジンの量を測定した。Tritium-labeled thymidine was added thereto, and after further culturing at 37°C for 10 hours, spc was collected, and the amount of 3H-thymidine incorporated into SPC was measured using a scintillation counter.

一般式CI)で示される化合物に関し、3H−チミジン
の取り込み促進・増強が認められ、ConAによるT細
胞活性化に対する増強作用があった。The compound represented by general formula CI) was found to promote and enhance the uptake of 3H-thymidine, and had an enhancing effect on T cell activation by ConA.

マウス肺臓リンパ球の免疫グロブリン産生に対する作用
: 前述の実験により、T細胞活性化作用があられれた本発
明のシアル酸誘導体について、さらに免疫グコブリン産
生に対する作用をプラーク形成細胞数を測定することに
より検討した。まづSPCに羊赤血球(S RB C)
及び夫々の一般式〔l)の化合物を加え、37℃で5日
培養した。得られた感作SPCに、再び5RBCおよび
補体を加えた。Effect on immunoglobulin production by mouse lung lymphocytes: The sialic acid derivative of the present invention, which was shown to have a T cell activating effect in the above experiment, was further investigated for its effect on immunoglobulin production by measuring the number of plaque-forming cells. did. Mazu SPC with sheep red blood cells (SRB C)
and each compound of general formula [1] were added and cultured at 37°C for 5 days. 5RBC and complement were added again to the obtained sensitized SPC.

カニンガム・チャンバー中で37℃3〜12時間培養後
PFC(プラーク形成細胞)を数えた。PFCs (plaque-forming cells) were counted after culturing at 37° C. for 3 to 12 hours in a Cunningham chamber.

PFCの減少が認められ、かつ細胞生存度は対照標準と
同等であったごとから免疫グロブリン産生に対する抑制
作用の増強を確認した。A decrease in PFC was observed, and cell viability was equivalent to that of the control standard, confirming an enhanced suppressive effect on immunoglobulin production.

本発明の化合物は、前述の二種の試験に於て活性を示し
た。すなわち抑制T細胞の活性化により免疫グロブリン
産生を抑制したものと考えられる。The compounds of the present invention showed activity in the two aforementioned tests. In other words, it is thought that immunoglobulin production was suppressed by activation of suppressor T cells.

従来、例えば膠原病などの自己免疫疾患においては、抑
制T細胞の機能低下が認められている。Conventionally, in autoimmune diseases such as collagen diseases, a decline in the function of suppressor T cells has been observed.

それ故、抑制T細胞活性化作用を有する本発明のシアル
酸誘導体は免疫調整剤として、臨床的応用の有用性が期
待される。Therefore, the sialic acid derivative of the present invention having suppressive T cell activating activity is expected to be useful in clinical applications as an immunomodulator.

以下、本発明を実施例により説明する。これらの実施例
は、単に本発明を説明するためのものであり、従って勿
論本発明を限定するためのものではない。The present invention will be explained below using examples. These examples are merely illustrative of the invention and therefore, of course, are not intended to limit it.

実施例1 メチルN−アセチルノイラミネート0.97 g(3m
mol)に無水酢酸20m1及び濃硫酸20mgを加え
20−25℃で10時間攪拌後氷水100m1中に注ぎ
NaHCO2で中和した。Example 1 Methyl N-acetylneuraminate 0.97 g (3 m
mol) were added with 20 ml of acetic anhydride and 20 mg of concentrated sulfuric acid, and the mixture was stirred at 20-25°C for 10 hours, then poured into 100 ml of ice water and neutralized with NaHCO2.

中和した反応液をクロロホルム抽出、水洗、芒硝で乾燥
し濾過後、溶媒を留去、乾固した。The neutralized reaction solution was extracted with chloroform, washed with water, dried with Glauber's salt, filtered, and then the solvent was distilled off to dryness.

得られた粗反応生成物を乾燥したメタノール30m1に
溶しナトリウムメチラ・−ト0゜5gを作用させ室温で
1時間放置後、Dowex −50(H” )をもちい
て中和し、口過後、樹脂をメタノールでよく洗う。The obtained crude reaction product was dissolved in 30 ml of dry methanol, treated with 0.5 g of sodium methylate, allowed to stand at room temperature for 1 hour, neutralized using Dowex-50 (H"), and filtered through the mouth. , wash the resin thoroughly with methanol.

口板と洗浄液を濃縮すると結晶が析出する。この結晶を
メタノールから再結晶し、無水酢酸5mff1ピリジン
4mlを作用させ室温−夜装置し氷水に注ぎクロロホル
ム抽出、lN−HCl5%N a HCO3、Ym和食
塩水、芒硝で乾燥し溶媒を留去そして乾燥すると無色の
粉末として標題の化合物を得た。収量0.65g(収率
46%)(α)  +40° (C=1、MeOH中)
Mass  m/z 474  (M” +1)元素分
析 C2゜Hz、NO+□と17で計算計算値 C: 
50.74 、H: 5.75、 N : 2.96実
測値 C: 50.40 、’H: 5.65、 N 
: 2.82’HNMR(400MHz、CDC# 3
中)δo (TMS)1.920s、  3)1.  
NAc)。When the mouth plate and cleaning solution are concentrated, crystals will precipitate. The crystals were recrystallized from methanol, treated with 5 mff of acetic anhydride, and 4 ml of pyridine, kept at room temperature overnight, poured into ice water, extracted with chloroform, 1N-HCl 5% Na HCO3, Ym Japanese saline, and dried with Glauber's salt, the solvent was distilled off, and the mixture was dried. The title compound was then obtained as a colorless powder. Yield 0.65 g (46% yield) (α) +40° (C=1, in MeOH)
Mass m/z 474 (M” +1) Elemental analysis Calculated value with C2゜Hz, NO+□ and 17 C:
50.74, H: 5.75, N: 2.96 Actual value C: 50.40, 'H: 5.65, N
: 2.82'HNMR (400MHz, CDC#3
Medium) δo (TMS) 1.920s, 3) 1.
NAc).

2.052.2.064,2.075,2.126(1
2tl、 4xOAc)。2.052.2.064, 2.075, 2.126 (1
2tl, 4xOAc).

3.800(s、  3H,COOMe)。3.800 (s, 3H, COOMe).

4.197(dd、  11.  J=7.1. −1
2.5Hz、  9−11)4.382(broad 
dd、  18.  J=9.9. 2.0Hz、  
5−H)4.380(broad s、  18. 6
−H)4.654(dd、  LH,J=−12,5,
2,93Hz、  9−H’)5.321(ddd、 
LH,J=7.1.2.9.2.0Hz、 8−H)5
.402(broad dd、  18.  J=2.
0Hz、 7−)1)5.48Hdd、  IH,J=
2.9.2.0Hz、  4−H)5.987(d、 
 LH,J=2.9Hz、  3−H)6.086(d
、  IH,J=9.9Hz、  NH)rRν□x 
(cm−9 1740(OAc、  COOMe)、  165B(
amidel)1535(amideIt) 実施例2 メチルN−アセチルノイラミネート1.Og(3,09
mmol)に無水酢酸20mA’及び濃硫酸0.1gを
加え、室温で溶けるまで(約30分)攪拌した後、80
−90℃で3時間攪拌した。この反応液を氷水中に注ぎ
、N aHCO3で中和後クロロホルム抽出、抽出液を
芒硝で乾燥13口過、溶媒留去し乾固する。残った反応
生成物はイソプロピルアルコールを用いることにより結
晶化、それに再結晶することによって標題化合物の無色
の針状晶を得た。収量1.24g(収率85%)融点1
00−103℃ Mass  m/z 474  (M” +1)(α)
 D   14’5° (C=1、MeOH中)元素分
析 C2゜H2?N0I2として計算値 C; 50.
74 、H、5,75、N 、 2.96実測値 C;
50.55 、H;6.04、 N ; 2.71’H
−NMR(300MHz、CDCjt x中)δH(T
MS)1.958(s、 3H,NAc) 2.0?9.2.103,2.120. 2.127(
121,4xOAc)3.816(s、 3H,COO
Me)。4.197 (dd, 11. J=7.1. -1
2.5Hz, 9-11) 4.382 (broad
dd, 18. J=9.9. 2.0Hz,
5-H) 4.380 (broad s, 18.6
-H)4.654(dd, LH,J=-12,5,
2,93Hz, 9-H')5.321(ddd,
LH, J=7.1.2.9.2.0Hz, 8-H)5
.. 402 (broad dd, 18. J=2.
0Hz, 7-)1) 5.48Hdd, IH,J=
2.9.2.0Hz, 4-H)5.987(d,
LH, J=2.9Hz, 3-H)6.086(d
, IH, J=9.9Hz, NH)rRν□x
(cm-9 1740 (OAc, COOMe), 165B (
amidel) 1535 (amideIt) Example 2 Methyl N-acetylneuraminate 1. Og(3,09
20 mA' of acetic anhydride and 0.1 g of concentrated sulfuric acid (mmol) were added, stirred at room temperature until dissolved (about 30 minutes), and then
The mixture was stirred at -90°C for 3 hours. The reaction solution was poured into ice water, neutralized with NaHCO3, extracted with chloroform, and the extract was dried over Glauber's salt for 13 passes, and the solvent was distilled off to dryness. The remaining reaction product was crystallized using isopropyl alcohol and recrystallized to obtain colorless needle-like crystals of the title compound. Yield 1.24g (yield 85%) Melting point 1
00-103℃ Mass m/z 474 (M” +1) (α)
D 14'5° (C=1, in MeOH) Elemental analysis C2°H2? Calculated value as N0I2 C; 50.
74, H, 5,75, N, 2.96 actual value C;
50.55, H; 6.04, N; 2.71'H
-NMR (300 MHz, in CDCjt x) δH (T
MS) 1.958 (s, 3H, NAc) 2.0?9.2.103, 2.120. 2.127(
121,4xOAc)3.816(s, 3H,COO
Me).

4.205(dd、 18. J=12.5.7.5H
z、 9−H)4.298(dd、 1B、 J=11
.0.2.1Hz、 6−H)4.322(dt、 L
H,J=4.3,11.0Hz、 5−II)4.80
3(dd、  IH,J=  12.5,2.7Hz、
  9−H’)5.162(dd、  IH,J=5.
6.4.3ffz、  4−H)5.322(ddd、
  1)1.  J=4.1,7.5,2.7Hz、 
 8−H)5.511(dd、  IH,J=4.1,
2.1)r、z、  7−H)5.615(d、  L
H,J=10.0Hz、NH)−6,233(d、  
IH,J=5.6Hz、  3−H)1750(−0A
c)、  1738(−0Ac COOMe)1658
(amide  I)、1535(amideII)実
施例3 実施例1で得られた化合物98mg (0,2Immo
l)をメタノール20mj!とPtOzlOOmgをも
ちいて接触還元反応を常圧、室温で、5 m lの水素
を吸収させた後、反応液を口過し溶媒を留去、乾固する
。次に反応生成物をシリカゲルカラムクロマトグラフィ
ーを展開溶媒クロロホルム:メタノール=ioo:tを
用いて分離、精製を行い標題化合物の無色の粉末を得た
。収量17mg(収率20%) (α)D +2° (C=1、MeOH中)Mass 
 m/z 416  (M” +1)元素分析 Cr 
s Hz s N OIoとして計算値 C; 52.
05 、H; 6.02、 N;3.37実測値 C;
 52.06 、H、6,15、N;3.29’H−N
MR(400MHz、CDCl x中)6M(TMS)
1.958(s、 3H,NAc) 2.090,2,066.2.115(9H,3xOA
c)2.197(ddd、 J=20.3,4.5.4
.1fLz、 4−H)2.62Hddd、 J=20
.3.5.6B、4.IH2,4−11’)3.785
(s、 IL COOMe)。4.205 (dd, 18. J=12.5.7.5H
z, 9-H) 4.298 (dd, 1B, J=11
.. 0.2.1Hz, 6-H) 4.322(dt, L
H, J=4.3, 11.0Hz, 5-II) 4.80
3 (dd, IH, J= 12.5, 2.7Hz,
9-H') 5.162 (dd, IH, J=5.
6.4.3ffz, 4-H)5.322(ddd,
1)1. J=4.1, 7.5, 2.7Hz,
8-H) 5.511 (dd, IH, J=4.1,
2.1) r, z, 7-H) 5.615 (d, L
H, J=10.0Hz, NH)-6,233(d,
IH, J=5.6Hz, 3-H) 1750 (-0A
c), 1738 (-0Ac COOMe) 1658
(amide I), 1535 (amide II) Example 3 98 mg of the compound obtained in Example 1 (0,2 Immo
l) with 20mj of methanol! After absorbing 5 ml of hydrogen at normal pressure and room temperature using PtOzlOOmg and PtOzlOOmg, the reaction solution was passed through the mouth and the solvent was distilled off to dryness. Next, the reaction product was separated and purified by silica gel column chromatography using a developing solvent of chloroform:methanol=ioo:t to obtain a colorless powder of the title compound. Yield 17 mg (yield 20%) (α)D +2° (C=1, in MeOH)Mass
m/z 416 (M” +1) Elemental analysis Cr
Calculated value as s Hz s N OIo C; 52.
05, H; 6.02, N; 3.37 actual value C;
52.06, H, 6,15, N; 3.29'H-N
MR (400MHz, in CDCl x) 6M (TMS)
1.958 (s, 3H, NAc) 2.090, 2,066.2.115 (9H, 3xOA
c) 2.197 (ddd, J=20.3, 4.5.4
.. 1fLz, 4-H) 2.62Hddd, J=20
.. 3.5.6B, 4. IH2,4-11') 3.785
(s, IL COOMe).

4.177(t、 IH,J=5.9)1.z、 6−
H)4.247(d、 IH,J=7.3,15.6H
z、 9−H)4.365(dddd、 J=8?6,
4.5.5.9,4.’llz、 5−H)4.56H
dd、 IH,J= 3.5,15.6Hz、 9−H
’)5.233(ddd、 1)1. J=3.9,7
.3,3.5Hz、 8−tl)5.440(dd、 
IH,J=5.9,3.9Hz、 7−H)5.645
(d、  IH,J=8.6Hz、  N)l)IRシ
l、1.XcI11−1 1730(C0OHJ+  1640(amideI)
4.177 (t, IH, J=5.9)1. z, 6-
H) 4.247 (d, IH, J=7.3, 15.6H
z, 9-H)4.365(dddd, J=8?6,
4.5.5.9,4. 'llz, 5-H) 4.56H
dd, IH, J= 3.5, 15.6Hz, 9-H
')5.233(ddd, 1)1. J=3.9,7
.. 3,3.5Hz, 8-tl)5.440(dd,
IH, J=5.9, 3.9Hz, 7-H) 5.645
(d, IH, J=8.6Hz, N)l) IR sil, 1. XcI11-1 1730 (C0OHJ+ 1640 (amide I)
.

1525(amideII) 実施例4 実施例1で得られた化合物100 mg (0,21m
mor)をMeOH20ml中10%Pd−C100m
gを用いて接触還元反応を2時間、常圧、室温で行い、
反応液を口過、溶媒留去、乾固し、反応生成物をエーテ
ルを用いて結晶化し、再結晶することによって標題化合
物の無色の針状晶を得た。収量75mg(収率75%) 融点185〜186℃ (α)OH6° (C=1、M e OH中)Mass
  m/z 476   (M” +1)元素分析 C
2゜H2,NO,□として計算値 C;50.53 、
H;6.11、 N;2.95実測値 C;50.49
 、H;6.14、 N;2.8B’ HNMR(40
0MHz、 CDC1:l中)δ14 (TMS)1.
858(dt、 LH,J=12.1,11.2112
.3−H)1.892(s、  38.  NAc)2
.043,2.072,2.141(12H,4xOA
c)2.406(ddd、 IH,J=12.1.4.
9.2.4112.3−H’)3.699(dd、 I
H,J=2.2,10.411z、 6−H)3.77
1(s、 3L −COOMe)。1525 (amide II) Example 4 100 mg of the compound obtained in Example 1 (0.21 m
10% Pd-C100m in 20ml MeOH
A catalytic reduction reaction was carried out using g for 2 hours at normal pressure and room temperature,
The reaction solution was filtered through the mouth, the solvent was distilled off, and the mixture was dried. The reaction product was crystallized from ether and recrystallized to obtain colorless needle-like crystals of the title compound. Yield: 75 mg (yield: 75%) Melting point: 185-186°C (α) OH6° (C=1, in M e OH) Mass
m/z 476 (M” +1) Elemental analysis C
Calculated value as 2゜H2, NO, □ C; 50.53,
H: 6.11, N: 2.95 Actual value C: 50.49
, H; 6.14, N; 2.8B' HNMR (40
0MHz, CDC1:l) δ14 (TMS)1.
858 (dt, LH, J=12.1, 11.2112
.. 3-H)1.892(s, 38.NAc)2
.. 043, 2.072, 2.141 (12H, 4xOA
c) 2.406 (ddd, IH, J=12.1.4.
9.2.4112.3-H')3.699(dd, I
H, J=2.2, 10.411z, 6-H) 3.77
1(s, 3L-COOMe).

4.021(q、 LH,J=10.4Hz、 5−H
)4.056(dd、 18. J=12.2,2.4
Hz、 2−H)4.143(dd、 IH,J・7.
3,12.5H,z、 9−fl)4.650(dd、
 In、 J=2.6,12.5Hz、 9−H’)5
.046(ddd、 1)1. J=11.2,5.0
,10.0Ilz、 4−)1)5.250(ddd、
 18. J、2.4.7.3,2.6Hz、 8−H
)5.362(dd、 LH,J:2.2,2.4Hz
、 7−8)5.385(d、 LH,J=9.2H2
,NH)1730(−0Ac、 −COOMe)。4.021 (q, LH, J=10.4Hz, 5-H
) 4.056 (dd, 18. J=12.2, 2.4
Hz, 2-H) 4.143 (dd, IH, J・7.
3,12.5H,z, 9-fl)4.650(dd,
In, J=2.6, 12.5Hz, 9-H')5
.. 046(ddd, 1)1. J=11.2,5.0
,10.0Ilz, 4-)1)5.250(ddd,
18. J, 2.4.7.3, 2.6Hz, 8-H
) 5.362 (dd, LH, J: 2.2, 2.4Hz
, 7-8) 5.385 (d, LH, J=9.2H2
, NH) 1730 (-0Ac, -COOMe).

1650(amide l )+1530(amide
II)実施例5 実施例1で得られた化合物0.20mg (0,42m
mo l )をMeOHl 5rnj!、AcOl(5
mj!、中10%Pd−Co、 10 gを用いて接触
還元反応を2時間、常圧、室温で行い、反応液を口過、
溶媒留去、乾固後、残った反応生成物をエーテルを用い
て結晶化し、再結晶することによって標題化合物の無色
の針状晶を得た。収量149mg(収率85%)融点1
61〜162℃ 〔α〕。+15° (C=1.MeOH中)Mass 
 m/z 417  (M” )元素分析 Cl1lH
2,No10として計算値 c ;51.79 、H;
6.52、 Ni3.36実測値 C、51,47、H
、6,39、N;3.44’H−NMR(300MHz
、CDC12、中)δll(TMS)1.517(dd
d、 LH,J=12.6,3.42.12.5Hz、
4−Hax)1.723(ddd、LH,J=10.3
,12.5.12.6Hz、3−Wax)1.894(
s、3H,NAc) 2.021,2.049,2.111(9H,3xOA
c)2.0−2.2(3−Heq、  4−Heq)3
.556(dd、  ill、  J=10.3,2.
4Hz、  6−H)3.732(s、  311. 
−COOMe) 。1650(amide l)+1530(amide
II) Example 5 0.20 mg (0.42 m
mol) to MeOHl 5rnj! , AcOl(5
mj! A catalytic reduction reaction was carried out for 2 hours at normal pressure and room temperature using 10 g of 10% Pd-Co in
After evaporation of the solvent and drying, the remaining reaction product was crystallized using ether and recrystallized to obtain colorless needle-like crystals of the title compound. Yield 149 mg (yield 85%) Melting point 1
61-162℃ [α]. +15° (C=1. in MeOH) Mass
m/z 417 (M”) Elemental analysis Cl1lH
2, Calculated value as No. 10 c; 51.79, H;
6.52, Ni3.36 actual value C, 51,47, H
, 6,39,N; 3.44'H-NMR (300MHz
, CDC12, middle) δll (TMS) 1.517 (dd
d, LH, J=12.6, 3.42.12.5Hz,
4-Hax) 1.723 (ddd, LH, J=10.3
, 12.5.12.6Hz, 3-Wax) 1.894 (
s, 3H, NAc) 2.021, 2.049, 2.111 (9H, 3xOA
c) 2.0-2.2 (3-Heq, 4-Heq) 3
.. 556 (dd, ill, J=10.3,2.
4Hz, 6-H) 3.732(s, 311.
-COOMe).

3.912(dddd、  IH,J=12.5.3.
5,10.7,10.3Hz。3.912 (dddd, IH, J=12.5.3.
5, 10.7, 10.3Hz.

5−■) 3.913(dd、  IH,J=2.0,10.3H
z、  2−H)4.141(dd、  IH,J=7
.3.12.2H2,9−tl)4.685(dd、 
 IN、  J=2.4.12.2Hz、  9−1f
’)5.234(ddd、  LH,J=4.4,7.
3,2.4Hz、  8−H)5.369(dd、  
LH,J=2.4.4.4Hz、  7−105.31
0(d、  LH,J=10.78Z、  NH)17
40(−0八c、   −COOMe)。5-■) 3.913 (dd, IH, J=2.0, 10.3H
z, 2-H) 4.141 (dd, IH, J=7
.. 3.12.2H2,9-tl)4.685(dd,
IN, J=2.4.12.2Hz, 9-1f
') 5.234 (ddd, LH, J=4.4, 7.
3,2.4Hz, 8-H)5.369(dd,
LH, J=2.4.4.4Hz, 7-105.31
0(d, LH, J=10.78Z, NH)17
40 (-08c, -COOMe).

1658(amide I )、1545(amide
■)また、実施例2で得られた化合物を、上記と同様に
メタノール−酢酸中PLO□を用いて接触還金物を得た
1658 (amide I), 1545 (amide
(2) Furthermore, a catalytic reduction product of the compound obtained in Example 2 was obtained using PLO□ in methanol-acetic acid in the same manner as above.

実施例6 実施例5で得られた化合物100mgをMeOHlml
に溶し、I N−Na OH1mlを加え15時間、室
温で放置し、水5mlを加え、Dowex −50(H
”)を用いて反応液を中和、口過し、溶媒を留去、乾固
後、EtOHをもちいて結晶化及び再結晶を行い、標題
化合物の無色のプリズム状晶を得た。収量43n+g(
収率65%)、融点209〜210℃ (tx〕I)−29° (C= 0.5、M e OH
中)元素分析 CIIHI9NO?として 計算値 C: 47.65 、H: 6.86、 N 
: 5.(15実測値 C: 47.11 、H: 6
.53、 N : 5.24’tlNMR(60MHz
、DzO)  δH(DSS)2.10(s、  38
.  NAc)IRシ11.XcITl−1 1725(−COOH)。Example 6 100 mg of the compound obtained in Example 5 was added to 1 ml of MeOH.
Add 1 ml of IN-Na OH, leave at room temperature for 15 hours, add 5 ml of water, and add Dowex-50 (H
The reaction solution was neutralized using a solution of 100% sodium chloride, filtered, and the solvent was distilled off to dryness, followed by crystallization and recrystallization using EtOH to obtain colorless prismatic crystals of the title compound. Yield: 43n+g. (
yield 65%), melting point 209-210°C (tx]I) -29° (C = 0.5, M e OH
Middle) Elemental analysis CIIHI9NO? Calculated values as C: 47.65, H: 6.86, N
: 5. (15 Actual value C: 47.11, H: 6
.. 53, N: 5.24'tlNMR (60MHz
, DzO) δH(DSS)2.10(s, 38
.. NAc)IRshi11. XcITl-1 1725(-COOH).

1630(amide I )+1540(amide
n)参考例1 実施例2で得られた化合物500B (1,06mmo
l)に乾燥アセトニトリル’l Qmfを加えNaN3
(120mg)を加え、0℃で窒素気流下攪拌した。1630(amide I)+1540(amide
n) Reference Example 1 Compound 500B obtained in Example 2 (1,06 mmo
Add dry acetonitrile Qmf to l) and add NaN3
(120 mg) was added thereto, and the mixture was stirred at 0°C under a nitrogen stream.

この中に、硫酸セリウムアンモニウム (NH4)ice  (NOz)i  (1,8g)を
加え、更に撹拌を続けた。10時間後、この反応液を氷
水中に注ぎ、エーテル抽出を行った。エーテル層を芒硝
で乾燥した後、減圧濃縮した。標題化合物の無色針状晶
を得た。(収率:88.2%)、融点135−136℃ IR(KBr)  ν、、、x  am−’    2
125(−Nz)1650(−ONO□) 参考例2 参考例1で得られた化合物100mg (0,1711
aol)を乾燥メタノールにとかし、NaOMe5mI
lを加え、室温で30分間攪拌した後、酢酸を加え、中
和し、溶媒を留去した。その後、無水酢酸5ml、ピリ
ジン5ml1を加え一昼夜放置しアセチル化を行った。Cerium ammonium sulfate (NH4) ice (NOz)i (1.8 g) was added to this, and stirring was continued. After 10 hours, the reaction solution was poured into ice water and extracted with ether. The ether layer was dried with Glauber's salt and then concentrated under reduced pressure. Colorless needle-like crystals of the title compound were obtained. (Yield: 88.2%), melting point 135-136°C IR (KBr) ν, , x am-' 2
125(-Nz)1650(-ONO□) Reference Example 2 100 mg of the compound obtained in Reference Example 1 (0,1711
aol) in dry methanol, NaOMe5mI
After stirring at room temperature for 30 minutes, acetic acid was added to neutralize and the solvent was distilled off. Thereafter, 5 ml of acetic anhydride and 5 ml of pyridine were added, and the mixture was allowed to stand overnight for acetylation.

この反応液に氷水を注ぎ、過剰の無水酢酸を分解した後
、クロロホルム抽出を行った。クロロホルム層を芒硝で
乾燥後、溶媒留去すると、ピリジン臭がしたため、エタ
ノールを加え、共沸させた。標題化合物の無色針状晶を
得た。(収率50%) 融点(分解)211℃ (ff)o+4.8° (C=0.33、MeOH中)
IR(KBr)  ν11.. Cf1−’ 2125
(−Nff )元素分析 C2OH2?N5OI6とし
て計算値 C:41.59 、H:・4.68、 N 
: 12.13実測値 C: 40.58 、H: 4
.46、 N : 11.56参考例3 2−デオキシ−2,3−デヒドロ−4,7,8゜9−テ
トラ−0−アセチル−N−アセチルノイラミン酸メチル
エステル(473mg、1mmol)を充分に乾燥した
後、蒸留及びモレキュラーシーブ3人処理したメタノー
ル29m1lに溶解し、NBS(405mg)を加え、
室温で3時間攪拌した。反応液の溶媒を留去した後、少
量のクロロホルムに溶解し、過剰のNBSを結晶として
析出させ自然ろ過した。黄色油状物を得た。ローバーカ
ラムを用いて精製を行った。C溶媒:クロロホルム)標
題化合物を無色針状晶として分取した。After pouring ice water into the reaction solution to decompose excess acetic anhydride, extraction with chloroform was performed. After drying the chloroform layer with Glauber's salt and distilling off the solvent, a pyridine odor was emitted, so ethanol was added and azeotroped. Colorless needle-like crystals of the title compound were obtained. (Yield 50%) Melting point (decomposition) 211°C (ff)o+4.8° (C=0.33, in MeOH)
IR(KBr) ν11. .. Cf1-' 2125
(-Nff) Elemental analysis C2OH2? Calculated value as N5OI6 C: 41.59, H: ・4.68, N
: 12.13 Actual value C: 40.58, H: 4
.. 46, N: 11.56 Reference Example 3 Sufficient amount of 2-deoxy-2,3-dehydro-4,7,8゜9-tetra-0-acetyl-N-acetylneuraminic acid methyl ester (473 mg, 1 mmol) After drying, dissolve in 29 ml of methanol that has been distilled and treated with 3 molecular sieves, add NBS (405 mg),
The mixture was stirred at room temperature for 3 hours. After distilling off the solvent of the reaction solution, it was dissolved in a small amount of chloroform, and excess NBS was precipitated as crystals, which were then gravity filtered. A yellow oil was obtained. Purification was performed using a Rover column. C solvent: chloroform) The title compound was separated as colorless needle-like crystals.

(117mg、収率20%) 融点 144−147℃ [α]D  −65,5°(C:0.94、MeOH)
IRv、、、   am−’   1750(−COO
Me)、1660(−NHCO−)1550(−NHC
O−) Mass(M”)mHz      524(M ”−
OAc)526(M  ”−0八C) NMR(300MHz、 CDCj? 3)   δo
  (TMS)3.849ppn+(3H,s、  C
OOMe)3.537   (3H,s、  OMe)
2.144    (3H,s、  0Ac)2.08
7   (3B、  s、  0Ac)2.075  
 (311,s、  0Ac)2.037   (38
,s、  0Ac)1.909    (3H,s、 
 N!!八Cへ3.983   (IH+cLJz、a
・10.75.  H−3)参考例4 2−デオキシ−2,3−デヒドロ−4,7,8゜9−テ
トラ−0−アセチル−N−アセチルノイラミン酸メチル
エステル(473mg、  1mmol)を充分に乾燥
した後、蒸留及びモレキュラーシーブ3人処理したアセ
トニトリル20m1に溶解し、モレキュラーシーブ3人
処理したベンジルアルコール575mg5NBS (2
85mg)を加え、室温で4時間撹拌した。(117 mg, yield 20%) Melting point 144-147°C [α]D -65,5° (C: 0.94, MeOH)
IRv,,, am-' 1750 (-COO
Me), 1660 (-NHCO-) 1550 (-NHC
O-) Mass (M") mHz 524 (M"-
OAc)526(M''-08C) NMR(300MHz, CDCj?3) δo
(TMS) 3.849ppn+(3H,s, C
OOMe) 3.537 (3H,s, OMe)
2.144 (3H,s, 0Ac)2.08
7 (3B, s, 0Ac)2.075
(311,s, 0Ac)2.037 (38
,s, 0Ac)1.909 (3H,s,
N! ! 3.983 to 8C (IH+cLJz, a
・10.75. H-3) Reference Example 4 After sufficiently drying 2-deoxy-2,3-dehydro-4,7,8゜9-tetra-0-acetyl-N-acetylneuraminic acid methyl ester (473 mg, 1 mmol) , distilled and treated with 3 molecular sieves 575 mg of benzyl alcohol dissolved in 20 ml of acetonitrile and treated with 3 molecular sieves 5 NBS (2
85 mg) was added thereto, and the mixture was stirred at room temperature for 4 hours.

反応液の溶媒を留去した後、NBS沈でんを自然濾過に
より除いた。シリカゲルカラム(展開溶媒:ベンゼン−
アセトン(l O/1))により精製を行った。ローバ
ーカラムを用いて再精製を行った。After distilling off the solvent of the reaction solution, the NBS precipitate was removed by gravity filtration. Silica gel column (developing solvent: benzene-
Purification was carried out with acetone (l O/1). Repurification was performed using a Rover column.

(シリカゲル、展開溶媒クロロホルム−メタノール(8
0/1)) 標題化合物−一を無色針状晶として分取した。(Silica gel, developing solvent chloroform-methanol (8
0/1)) The title compound-1 was isolated as colorless needle-like crystals.

(20mg、収率:3.03%) 融点 175−178℃ 〔α〕。  ±5.8° (C=0.35、MeOH)
rRシー−x   −’   17ff5(−COOM
e)、1655(−NHCO−)0m 1550(−NHCO−) NMR(400MH2、CDC13)   δH(TM
S)3.73109(3)i、s、COOMe)2゜1
8926(3H,s、  0Ac)2.07838(3
H,s、  0Ac)2.04337(3B、  s、
  0Ac)1.95054(3f(、s、  0Ac
)1.91159(3H,s、  NHAc)4.64
863(IL d、 J=11.54.−CH−〇 )
4.41495(1)1.d、J=11.54.−C)
I−Q  )昭和  年  月  日 1、事件の表示   昭和60年特許願第69742号
2、発明の名称   2.4−ジデオキシシアル酸誘導
体3、補正をする者 事件との関係  出願人 名 称  関東医師製薬株式会社 4、代理人 6、補正の対象    明細書の発明の詳細な説明の欄
7、補正の内容 明細書筒27頁末行に続けて次の文を加入する0 「参考例3 コーデオキシーコ、3−デヒドロ−’A7.g、9−テ
トラ−0−7セチルーN−アセチルノイラミン酸メチル
エステル(4731t7、/mmoJ)をP2O5を用
いて乾燥し、メタノール二〇−に溶解し、Ne5(4t
O左〜)を加え、室温で3時間攪拌した。反応液の溶媒
を留去した後、少量つクロロホルムに溶解し、過剰のN
BSを結晶ニしてろ別した。黄色油状物を得た。ローパ
ー7ラム(Merck Gree s)  を用いて精
製を行った。(20 mg, yield: 3.03%) Melting point 175-178°C [α]. ±5.8° (C=0.35, MeOH)
rRc-x-' 17ff5(-COOM
e), 1655(-NHCO-)0m 1550(-NHCO-) NMR(400MH2, CDC13) δH(TM
S) 3.73109 (3) i, s, COOMe) 2゜1
8926 (3H, s, 0Ac) 2.07838 (3
H, s, 0Ac) 2.04337 (3B, s,
0Ac) 1.95054(3f(,s, 0Ac
) 1.91159 (3H, s, NHAc) 4.64
863 (IL d, J=11.54.-CH-〇)
4.41495(1)1. d, J=11.54. -C)
I-Q) Showa year, month, day 1, case description 1985 Patent Application No. 69742 2, title of the invention 2.4-dideoxysialic acid derivative 3, person making the amendment Relationship with the case Applicant name Title Kanto Ishikawa Pharmaceutical Co., Ltd. Co., Ltd. 4, Agent 6, Subject of amendment: Detailed explanation of the invention in the specification column 7, contents of the amendment Add the following sentence following the last line of page 27 of the specification cylinder 0 "Reference Example 3 Codexico , 3-dehydro-'A7.g,9-tetra-0-7cetyl-N-acetylneuraminic acid methyl ester (4731t7,/mmoJ) was dried using P2O5, dissolved in methanol 20- 4t
) was added, and the mixture was stirred at room temperature for 3 hours. After distilling off the solvent of the reaction solution, dissolve in a small amount of chloroform and remove excess N.
The BS was crystallized and filtered. A yellow oil was obtained. Purification was performed using a Roper 7 ram (Merck Grees).

、溶媒:クロロホルム)上記α−グルコシル体、β−グ
ルコシル及び原料を単離した。α−グルコシル体及びβ
−グルコシル体ハニーチルかう結晶化した。, solvent: chloroform) The above α-glucosyl body, β-glucosyl body, and raw material were isolated. α-glucosyl form and β
- The glucosyl body honeychill was crystallized.

α−グルコシル体 融点:/14t−/17℃(分解) 無色針状晶(収率:/よ6%) 〔α11;7:−4!、t’(c:θ94. M4!0
H)IR’:4F crIL−’  / 7 、!i−
0(−COOMe)/6乙0 (−NHCO−) /タタ0 (−NHCO−) Mass(M+) rry’z   !r 、2 lI
t(M” −0Ac)52乙(M  −OAC) NMR(3θQMHz 、 cocg3)aH(TMS
)3、gl19ppm (3H、S 、 COOMe)
3JJ 7   (jH、s 、 OMe)21’14
t(3H、s 、 0Ac)2gg7   (JH,s
、0Ac) ユθり5   (jh、s、oAc) 2.037    (、aH、s−、0Ac)i90q
   (jH,s、NHAc)、2.9g3   (j
H,d、J3.グ=/θ7!、H−3)!f、4’ q
2   (jH、t 、 J3,4 =IOJO−%5
 =10JO。α-Glucosyl substance melting point: /14t-/17°C (decomposition) Colorless needle crystals (yield: /6%) [α11;7:-4! , t'(c: θ94. M4!0
H) IR':4F crIL-'/7,! i-
0 (-COOMe) / 6 Otsu 0 (-NHCO-) / Tata 0 (-NHCO-) Mass (M+) rry'z! r, 2lI
t(M"-0Ac)52(M-OAC) NMR(3θQMHz, cocg3)aH(TMS
)3, gl19ppm (3H, S, COOMe)
3JJ 7 (jH, s, OMe) 21'14
t(3H,s,0Ac)2gg7(JH,s
, 0Ac) 5 (jh, s, oAc) 2.037 (, aH, s-, 0Ac) i90q
(jH,s,NHAc), 2.9g3 (j
H, d, J3. Gu=/θ7! , H-3)! f, 4' q
2 (jH, t, J3,4 =IOJO-%5
=10JO.

H−ダ) グ、2乙 り    (/ H、dt−Jq3  =’
/θj O、J4,4  =  10JO−j胡□=/
θ5θ、H−5) tAA!rg    (jH、dd、J↓6 =/θA
;0−J6り=2.20゜H−6) り、2Aり  (jH,dd、 J47=ユコ0 、 
J7.g =g、79 。H-da) gu, 2 Otsuri (/H, dt-Jq3 ='
/θj O, J4,4 = 10JO−j Hu□=/
θ5θ, H-5) tAA! rg (jH, dd, J↓6 =/θA
;0-J6ri=2.20゜H-6)ri, 2Ari (jH, dd, J47=Yuko0,
J7. g = g, 79.

H−7) ふ3!;3  (jH、ddd、 Jぺ9=對り−”g
、9’=39H−4) ’AO419(/)’−”’L−’?9#=/2.11
4tH−9)lAコllO(#+、dd、H−y’)元
素分析C21H5ONO13Brとして計算値 C;4
’、?、/乙、 H;よ/7.  N;2.3ワ実測値
 C;lIコ、、3.3*  H;左/り、  N;、
2−4tグβ−グルフシル体 融点”、170−172℃ 無色針状晶(収率/q%) 〔α絽4:+/&4°(C: / 、 MeOH)71
1m  −1 1Rνmax cMFl  / 73QC/ −COO
Me)/ is 70 (−NHCO−) /!r、3.!; (−NHCO−) Mass(M )r$z 3;24t (M  −0A
C)!r、、2is (M  −OAc) NMR(lIooMHz、 cock3) aH(vM
s)3gll!rppm (3H,s 、 cooMe
)3、.300   (3H、s 、 OMe)L/g
’l   (3M、s、0Ac)ユOg、3   (3
H,s、OAc)QOg /   (、aH、s 、 
0Ac)ユθJ g   (J He s −0Ac)
19/g   (3H,s、NHAc)’AA16  
(/HedeJ3.ダ=3゜乙7.H−J’)!;、’
170   (jH,dd、%1/QA7.H−4’)
’A3 !r !r  (/ H−broad Q −
’j、NH9,4’To −j部旬θ!r、3.H−!
r) lAogコ (jH,dd、J67=ig’l、H−A
)左J!rg  ’(jH,dd、、j=ダ、!−g、
H−7)2g 左コ99  (jH,ddd、 Jろq=7.’1g−
J凡9.=2.ダダ。H-7) Fu3! ;3 (jH, ddd, Jpe9=對-”g
, 9'=39H-4) 'AO419(/)'-"'L-'?9#=/2.11
4tH-9) lA collO (#+, dd, H-y') elemental analysis Calculated value as C21H5ONO13Br C; 4
',? ,/Otsu, H;yo/7. N; 2.3W Actual Measured Value C; 1I, 3.3* H; Left/Right, N;
Melting point of 2-4t β-glufucil body, 170-172°C Colorless needle crystals (yield/q%) [α 4: +/&4° (C: / , MeOH) 71
1m −1 1Rνmax cMFl / 73QC/ -COO
Me)/is 70 (-NHCO-)/! r, 3. ! ; (-NHCO-) Mass(M)r$z 3;24t (M-0A
C)! r,, 2is (M -OAc) NMR (lIooMHz, cock3) aH (vM
s)3gll! rpm (3H,s, cooMe
)3,. 300 (3H, s, OMe) L/g
'l (3M, s, 0Ac) YuOg, 3 (3
H,s,OAc)QOg/(,aH,s,
0Ac) θJ g (J He s -0Ac)
19/g (3H,s,NHAc)'AA16
(/HedeJ3.Da=3゜Otsu7.H-J')! ;,'
170 (jH, dd, %1/QA7.H-4')
'A3! r! r (/H-broad Q-
'j,NH9,4'To -j part seasonal θ! r, 3. H-!
r) lAogko (jH, dd, J67=ig'l, H-A
)Left J! rg'(jH, dd,, j=da,!-g,
H-7) 2g left 99 (jH, ddd, Jro q=7.'1g-
JBon9. =2. Dada.

H−ざ 44/g7  (jH,dd、 Jqqt=/2.3/
 、H−9)昭和  年  月  日 1、事件の表示  昭和60年特許願第69742号2
、発明の名称  2.4−ジデオキシシアル酸誘導体3
、補正をする者 事件との関係   出願人 名 称  関東医師製薬株式会社 4、代理人 6、補正の対象    明細書の発明の詳細な説明の欄
(1)昭和60年6月26日付手続補正書第5頁末行の
″・・・・・・H−9’)”に続けて次の文を加入する
H-za44/g7 (jH, dd, Jqqt=/2.3/
, H-9) Showa year month day 1, case description 1985 patent application No. 69742 2
, Title of the invention 2.4-dideoxysialic acid derivative 3
, Relationship with the case of the person making the amendment Applicant name Kanto Ishi Pharmaceutical Co., Ltd. 4, Agent 6, Subject of amendment Detailed explanation of the invention in the specification column (1) Procedural Amendment No. dated June 26, 1985 Add the following sentence following "...H-9')" on the last line of page 5.

[参考例6 参考例1で得られた化合物(50mg、0.087mm
ol)  に、酢酸ナトリウム(1g)及び酢酸(20
mg)を加え、100℃で1時間加熱還流した。この反
応液中に水を加え、クロロホルム抽出を行った。クロロ
ホルム層を水で洗った後、芒硝で乾燥後、溶媒留去した
。黄色油状物を得た。ローパーカラム(シリカゲル、M
erck、 Gr5Be B)を用いて精製を行った。[Reference Example 6 Compound obtained in Reference Example 1 (50 mg, 0.087 mm
ol), sodium acetate (1 g) and acetic acid (20
mg) was added thereto, and the mixture was heated under reflux at 100°C for 1 hour. Water was added to this reaction solution and extracted with chloroform. The chloroform layer was washed with water, dried over sodium sulfate, and then the solvent was distilled off. A yellow oil was obtained. Roper column (silica gel, M
erck, Gr5Be B).

(展開溶媒:クロロホルム/メタノール(”/、))白
色結晶を得た。、(収率20%) ((Z〕+48.9° (C=0.18. MeOH)
L Rv    Cm−’  1740(−C[JUM
e)1640(−NHCO−) 1540(−NHCO−) 2100(−N3)(Developing solvent: chloroform/methanol (''/,)) White crystals were obtained. (Yield 20%) ((Z) + 48.9° (C = 0.18. MeOH)
L Rv Cm-' 1740 (-C[JUM
e) 1640 (-NHCO-) 1540 (-NHCO-) 2100 (-N3)

Claims (1)

【特許請求の範囲】 一般式 ▲数式、化学式、表等があります▼〔 I 〕 (式中、R_1およびR_2は独立に水素またはO−ア
セチル基であり、但しR_1およびR_2の両者が共に
O−アセチル基である場合は除く、R_3はカルボキシ
ル基、またはメトキシカルボニル基であり、R_4は全
て同じであってヒドロキシル基またはO−アセチル基で
ある) で表わされるシアル酸誘導体。[Claims] General formula ▲ Numerical formula, chemical formula, table, etc. ▼ [ I ] (In the formula, R_1 and R_2 are independently hydrogen or an O-acetyl group, provided that both R_1 and R_2 are both O- (except when it is an acetyl group, R_3 is a carboxyl group or a methoxycarbonyl group, and R_4 are all the same and are a hydroxyl group or an O-acetyl group).
JP6974285A 1985-04-02 1985-04-02 2,4-dideoxysialic acid derivative Pending JPS61243074A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP6974285A JPS61243074A (en) 1985-04-02 1985-04-02 2,4-dideoxysialic acid derivative

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP6974285A JPS61243074A (en) 1985-04-02 1985-04-02 2,4-dideoxysialic acid derivative

Publications (1)

Publication Number Publication Date
JPS61243074A true JPS61243074A (en) 1986-10-29

Family

ID=13411558

Family Applications (1)

Application Number Title Priority Date Filing Date
JP6974285A Pending JPS61243074A (en) 1985-04-02 1985-04-02 2,4-dideoxysialic acid derivative

Country Status (1)

Country Link
JP (1) JPS61243074A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5239091A (en) * 1988-08-30 1993-08-24 G. D. Searle & Co. 2-deoxy derivatives of N-acetyl neuraminic acid and their preparation
US5554771A (en) * 1988-08-30 1996-09-10 G. D. Searle & Co. 2-deoxy derivatives of N-acetyl neuraminic acid and their preparation

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5239091A (en) * 1988-08-30 1993-08-24 G. D. Searle & Co. 2-deoxy derivatives of N-acetyl neuraminic acid and their preparation
US5554771A (en) * 1988-08-30 1996-09-10 G. D. Searle & Co. 2-deoxy derivatives of N-acetyl neuraminic acid and their preparation

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