CN112898415B - Antibody for detecting novel coronavirus and detection kit - Google Patents
Antibody for detecting novel coronavirus and detection kit Download PDFInfo
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- CN112898415B CN112898415B CN202010463547.0A CN202010463547A CN112898415B CN 112898415 B CN112898415 B CN 112898415B CN 202010463547 A CN202010463547 A CN 202010463547A CN 112898415 B CN112898415 B CN 112898415B
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Abstract
The invention discloses an antibody for detecting novel coronavirus and a detection kit. The invention also relates to nucleic acid molecules encoding the antibodies and methods of using these antibodies for diagnosis.
Description
Technical Field
The invention belongs to the fields of cellular immunology and molecular biology, and relates to an antibody for detecting a novel coronavirus and a detection kit.
Background
The international committee for viral classification named the novel coronavirus SARS-CoV-2 and the world health organization named the pneumonia caused by infection with this virus COVID-19. The virus has strong infectivity and wide transmission path. The virus can adapt to the environment of human body rapidly, has transmission capability in latent period after infection, and reports by some asymptomatic infectors that virus nucleic acid is detected even in various animals. These factors complicate the control of the virus and no effective therapeutic drugs and vaccines are currently on the market.
SARS-CoV-2 belongs to the genus Coronavirus, is a single-stranded positive-strand RNA virus, has a size of about 30kb, has a similarity of 79% to SARS-CoV, and has a similarity of up to about 88% to a Coronavirus (CoV) isolated from Bats. SARS-CoV-2 has typical coronavirus characteristics, and the virus envelope has typical spinous processes, which are shaped like coronages. The Nucleocapsid is of a spiral symmetrical type, the main structural protein is Nucleocapsid Protein (NP), and the total length of the NP is 420 amino acids. The NP has the most content in virus structural protein, is expressed in a large amount in the early stage of host infection, has stronger immunogenicity, and can cause strong immune response of a host. Thus, NP can be used as the main target antigen for serological diagnosis of SARS-CoV-2 infection.
Because specific therapeutic drugs and effective vaccines are not developed successfully, early diagnosis becomes an important measure for preventing and controlling epidemic situations, and early nucleic acid diagnosis and clinical diagnosis become important basis for accurate diagnosis. Although the nucleic acid diagnosis speed is high, the influence of the quality of the sampling is large, false positive and false negative exist, and the implementation of the prevention and control measures is influenced. Nucleic acid detection of part of asymptomatic infected persons is negative in the late stage of the disease process, and missed diagnosis is easy to occur only by nucleic acid detection. Serological diagnosis is to detect the immune response of an organism after pathogen infection, the duration is long, the immune response is stable, and the immune response shows a dynamic change trend along with the progress of the disease course. Serodiagnosis is therefore also an important tool for early diagnosis and assessment of the current state of infection.
Disclosure of Invention
The present invention provides antibodies, or antigen-binding fragments thereof, that specifically bind to a novel coronavirus NP protein. These antibodies are human monoclonal antibodies.
According to one aspect of the present invention, there is provided an antibody or antigen-binding fragment thereof capable of specifically binding to a novel coronavirus NP protein, wherein the antibody or antigen-binding fragment thereof comprises a heavy chain variable region comprising CDR regions of the sequences set forth in SEQ ID nos. 1 to 3.
In a specific embodiment of the invention, the heavy chain variable region comprises the amino acid sequence shown in SEQ ID NO. 4.
The antibody or antigen-binding fragment thereof of the present invention further comprises a light chain variable region comprising the CDR regions of the sequences set forth in SEQ ID Nos. 5-7.
In a specific embodiment of the invention, the light chain variable region comprises the amino acid sequence shown in SEQ ID NO. 8.
The antibody or antigen-binding fragment thereof of the invention may be an immunoglobulin g (IgG), IgM, IgE, IgA or IgD molecule, and in a preferred embodiment, the human antibody is an IgG. May be of the IgG1, IgG2, IgG3, or IgG4 subtype. Such antibodies or antigen-binding fragments thereof may be derived from Fab fragments, F (ab') 2 fragments, Fv fragments, single chain antibodies or chimeric antibodies.
In some embodiments, the antibodies of the invention or antigen binding fragments thereof may be part of a fusion protein.
According to another aspect of the invention there is provided a polynucleotide molecule comprising the coding sequence of the antibody or antigen-binding fragment thereof as hereinbefore described, in particular nucleotide sequences encoding the heavy and light chain variable regions, the contiguous amino acid sequences encoding the heavy and light chain CDRs 1 to CDR3 and encoding the individual CDRs.
The nucleic acid molecule comprises the sequences shown in SEQ ID NO.17 and 18.
According to a further aspect of the invention, there is provided an expression vector comprising a polynucleotide molecule as hereinbefore described.
Further, the expression vector further comprises an expression control sequence operably linked to the polynucleotide molecule as described above.
According to a further aspect of the invention there is provided a host cell transformed with a polynucleotide molecule as hereinbefore described or an expression vector as hereinbefore described.
According to a further aspect of the invention, there is provided a composition which may be a labelled or derivatised antibody or antigen binding fragment thereof as hereinbefore described. In one embodiment, such an antibody or antigen-binding fragment thereof is labeled with a radioactive label, an enzymatic label, a toxin, a pro-biotic, or a drug conjugate. In another embodiment, such an antibody or antigen-binding fragment thereof is derivatized to improve one or more properties thereof, such as half-life, bioavailability, or activity. In a preferred embodiment, such an antibody or antigen-binding fragment thereof is derivatized with polyethylene glycol, at least 1 methyl or ethyl group or at least one sugar chain. In another preferred embodiment, the labeled or derivatized antibody or antigen-binding fragment thereof is used in a diagnostic or therapeutic method.
The composition may be a combination of several antibodies, said combination comprising, in addition to the antibodies or antigen-binding fragments thereof as described above, one or several other antibodies or antigen-binding fragments thereof. As examples of other antibodies, the compositions of the invention further comprise a second antibody or antigen-binding fragment thereof comprising heavy chain variable region CDR1, heavy chain variable region CDR2, heavy chain variable region CDR3, light chain variable region CDR1, light chain variable region CDR2, light chain variable region CDR 3; wherein the content of the first and second substances,
heavy chain variable region CDR1 comprises the amino acid sequence shown in SEQ ID NO. 9;
heavy chain variable region CDR2 comprises the amino acid sequence shown in SEQ ID NO. 10;
heavy chain variable region CDR3 comprises the amino acid sequence shown in SEQ ID NO. 11;
light chain variable region CDR1 comprises the amino acid sequence shown in SEQ ID NO. 13;
light chain variable region CDR2 comprises the amino acid sequence shown in SEQ ID NO. 14;
light chain variable region CDR3 comprises the amino acid sequence shown in SEQ ID NO. 15;
preferably, the second antibody comprises a heavy chain variable region, a light chain variable region; wherein the heavy chain variable region comprises an amino acid sequence shown in SEQ ID NO.12, and the light chain variable region comprises an amino acid sequence shown in SEQ ID NO. 16.
According to a further aspect of the invention there is provided a kit comprising an antibody or antigen-binding fragment thereof as hereinbefore described.
The kit may further comprise a second antibody as described above.
Further, the kit also comprises a color developing agent. The kit also contains instructions for diagnostic methods. The kit can utilize the inclusion of the aforementioned antibodies or antigen binding fragments thereof to detect the novel coronavirus in the biological sample.
Detection methods include conventional immunoassays including, without limitation, ELISA, RIA, FACS, immunohistochemistry, Westernblot, or immunoprecipitation, and the like. The antibodies or antigen-binding fragments thereof of the invention are useful for the detection of novel coronavirus NP proteins.
The present invention provides a method for detecting a novel coronavirus NP protein in a biological sample, comprising contacting the biological sample with an antibody or antigen-binding fragment thereof of the invention as described above, and detecting the binding of the antibody to the NP protein to determine the presence or absence of the novel coronavirus in the sample. In one embodiment, the antibody is directly labeled with some detectable label. In another embodiment, the anti-NP antibody (primary antibody) is unlabeled, while the secondary antibody or other molecule that can bind to the anti-NP antibody is labeled. Those skilled in the art will recognize that the second antibody is selected to specifically bind to the species and class of the first antibody. For example, if the antibody against the NP protein is a human IgG, the second antibody may be an anti-human IgG antibody. Other molecules capable of binding to antibodies include, without limitation, protein a and protein G.
Suitable antibody or second antibody labels are described above and include various enzymes, prosthetic groups, fluorescent materials, luminescent materials, radioactive materials, and the like. Suitable enzyme labels include horseradish peroxidase, alkaline phosphatase, beta-galactosidase, or acetylcholinesterase, or the like; suitable prosthetic group complexes include streptavidin/biotin and ovalbumin/biotin, and the like; suitable fluorescent materials include umbelliferone, fluorescein isothiocyanate, rhodamine, dichlorotriazinylamine fluorescein, dansyl chloride, phycoerythrin, or the like; the luminescent material is luminous ammonia; suitable radioactive materials include 125I, 131I, 35S, or 3H, among others.
In another embodiment, the NP protein in a biological sample may be detected by a competitive immunoassay, i.e., an assay using a standard NP protein labeled with a detectable substance and an unlabeled antibody against the NP protein. In this assay, the biological sample, labeled NP protein standard and anti-NP protein antibody are mixed together and the amount of labeled NP protein standard bound to unlabeled antibody is determined. The amount of NP protein in the biological sample is inversely proportional to the amount of labeled NP protein standard bound by the anti-NP protein antibody.
The invention also provides methods for producing the antibodies or antigen-binding fragments thereof of the invention, comprising production by immortalized cell lines, artificial synthesis, recombinant expression, or phage display techniques. In a particular embodiment, the method of the invention comprises the step of culturing the host cell as described above.
According to a further aspect of the invention, there is provided a use comprising any one of the following:
(1) the use of the antibody or antigen-binding fragment thereof as described above for the preparation of a novel coronavirus detection product;
(2) use of the antibody or antigen-binding fragment thereof as hereinbefore described for the manufacture of a novel diagnostic product for coronavirus infection;
(3) use of a composition as hereinbefore described for the preparation of a test product for a novel coronavirus.
The test product or diagnostic product comprises the kit as described above.
The method for realizing the detection function or the diagnosis function by using the detection product or the diagnosis product of the present invention is as described above.
Definition and general techniques
Unless defined otherwise herein, scientific and technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. Furthermore, as used herein, the singular includes the plural and plural referents unless the context requires otherwise. Generally, the relative terms of cell tissue culture, molecular biology, immunology, microbiology, genetics, protein and nucleic acid chemistry described herein are well known and commonly used in the art. The methods and techniques employed in the present invention are essentially performed according to conventional methods well known in the art, unless otherwise specified, and are described in various general or specific reference books, such as Sambrook et al molecular Cloning: ALaborory Manual, 2d ed., Cold Spring Harbor laboratory Press, Cold Spring Harbor, N.Y. (1989); ausubel et al, Current Protocols in Molecular Biology, Greene publishing associates (1992); harlow and Lane Antibodies: a Laboratory Manual Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y. (1990), and the like. Enzymatic reactions and purification techniques are performed according to manufacturer's instructions, and some are conventional in the art and some are described herein. The nomenclature used herein and the laboratory procedures in connection with analytical chemistry, organic synthetic chemistry, and pharmaceutical chemistry are those well known and commonly employed in the art. Chemical synthesis, chemical analysis, pharmaceutical preparation, prescription, transportation and treatment of patients all employ standard techniques.
Unless otherwise specified, the following terms are intended to have the following meanings:
the term "immunoglobulin" is a tetrameric molecule. Naturally occurring immunoglobulin tetramers are composed of two identical pairs of polypeptide chains, one "light" (about 25kD) and one "heavy" (about 50-70kD) chain per pair. The amino-terminal portion of each chain comprises a variable region of about 100-110 amino acids, primarily responsible for antigen recognition. The carboxy-terminal portion of each chain is the constant region primarily responsible for the functional effect. Human light chains are classified into two types, kappa chains and lambda chains; heavy chains are classified into five classes, mu, delta, gamma, alpha, epsilon, and the subclasses of the corresponding antibodies are IgM, IgD, IgG, IgA, and IgE, respectively. The variable and constant regions of the light and heavy chains are each joined by a "J" region of about 12 amino acids, and the heavy chain also includes a "J" region of about 10 amino acids. The references are given in: see general, fundamental immunology ch.7(Paul, w., ed., 2nd ed. raven Press, n.y. (1989)). The variable region of each light/heavy chain pair forms the binding site for an antibody, and thus an intact immunoglobulin molecule has two binding sites.
Immunoglobulin chains have essentially the same structure: there are three regions of high variability between relatively conserved Framework Regions (FR), also called Complementarity Determining Regions (CDRs). The CDRs of both chains are aligned by the framework regions, enabling them to bind specific epitopes. The functional regions of either the light or heavy chain, from N-terminus to C-terminus, are FR1, CDR1, FR2, CDR2, FR3, CDR3 and FR4, in that order. The amino acid divisions contained in each functional region are consistent with the following references: kabat, Sequences of proteins of Immunological Interest (National Institutes of Hlealth, Bethesda, Md. (1987and 1991)); chothia & Lesk, j.mol.biol.196: 901-917 (1987); chothia et al nature 342: 878-88(1989).
The term "antibody" refers to an intact immunoglobulin or an antigen-binding fragment thereof that competes with an intact antibody for a specific binding site. Antigen-binding fragments can be obtained from intact antibodies by recombinant protein techniques, enzymatic reactions or chemical cleavage. The antigen-binding fragment mainly comprises: fab, Fab ', F (ab') 2, Fv, dAb, Complementarity Determining Region (CDR) fragments, single chain antibodies (scFv), chimeric antibodies, diabodies, and polypeptides that include at least a portion of an immunoglobulin and have antigen binding properties. Fab is a monovalent fragment consisting of several domains, VL, VH, CL, CHI; f (ab') 2 is a bivalent fragment formed by two Fab fragments linked by a disulfide bond at the hinge region; fd fragment consists of VH and CHI composition; fv consists of VL and VH compositions of antibodies; dAb fragments (Wardet et al, Nature 341: 544-546, 1989) are composed of a VH domain. Single chain antibodies (scFv) are monovalent antibody molecules formed by joining VL and VH domains into a single protein chain via a synthetic linker (Bird et al, Science 242: 423-. Bivalent antibodies (diabodies) are bivalent, bispecific antibodies in which the VH and VL domains are in one polypeptide chain, but the linker between the two is too short to allow pairing of the two domains of the same chain, thus forcing pairing with the corresponding domain of the other chain to form two antigen binding sites (Holliger, P., et al., Proc. Natl. Acad. Sci. USA 90: 6444-. One or more CDRs may be inserted into a molecule in a covalent or non-covalent fashion to form an immunoadhesin. Immunoadhesins can be prepared by inserting a CDR into one large polypeptide chain, or by linking the CDR to another polypeptide chain in a covalent or non-covalent manner. The CDRs enable the immunoadhesin to specifically bind to a particular antigen of interest.
An antibody may have one or more than one binding site. If there is more than one binding site, they may be the same or different. For example, naturally occurring immunoglobulins have two identical binding sites, single chain antibodies or Fab fragments have only one binding site, whereas "bispecific" or "bifunctional" antibodies have two different binding sites. Bispecific antibodies can be obtained by a variety of methods, such as hybridoma cell fusion or binding of different Fab' fragments. The references are given in: songsivilai & Lachmann Clin/. exp.Immunol.79: 315- > 321 (19190); kostlny et al.j.immunol.148: 1547-1553(1992).
Antibodies or immunoglobulin molecule fragments or analogs can be prepared by techniques conventional in the art and as described herein. Preferably the amino-or carboxy-terminus of the fragment or analog is located in the vicinity of the functional domain. The structural and functional domains of antibodies can be determined by comparison with nucleotide and/or amino acid data in public or private databases. Preferred methods are computer-based comparisons to identify sequence motifs or to predict conformational domains that occur in other proteins of known structure and/or function. Methods have been available to determine whether a protein sequence folds into a known three-dimensional structure (Bowie et al science 253: 164 (1991)).
Preferred amino acid substitutions may be: (1) reduced susceptibility to proteolysis, (2) reduced susceptibility to oxidation, (3) altered binding affinity when protein complexes are formed, (4) altered binding affinity, and (5) other physicochemical or functional properties imparted or altered by these analogs. Analogs can contain a variety of mutations that differ from the sequence of the protein that occurs in nature. For example, single or multiple amino acid substitutions (particularly conservative amino acid substitutions) may be made in a naturally occurring protein sequence (particularly in portions other than the domains where intermolecular contacts occur). Conservative amino acid substitutions should not alter the structural properties of the parent sequence (e.g., the substituted amino acid should not disrupt the helical structure of the parent sequence, or alter other specific secondary structures of the parent sequence). Some examples of known secondary and quaternary Structures of Proteins are described in Proteins, Structures and Molecular Principles (Creighton, Ed., W.H.Freeman and Company, New York (1984)); introductionto Protein Structure (c.branden and j.tooze, eds., garland publishing, New York, n.y. (1991)); thornton et at. nature 354: 105(1991).
The twenty basic amino acids and their abbreviations used in this specification are in conventional format and are described in Immunology-A Synthesis (2nd Edition, E.S. Golub and D.R. Gren, eds., Sinauer Associates, Sunderland, Mass. (1991)). Stereoisomers of twenty basic amino acids (e.g., D-amino acids), unnatural amino acids such as α, α -disubstituted amino acids, N-alkyl amino acids, lactic acid, and other non-traditional amino acids can also be used in the polypeptides of the invention. Examples of non-traditional amino acids are: 4-hydroxyproline, gamma-carboxyglutamic acid, epsilon-N, N, N-trimethylserine, epsilon-N-acetyl lysine, O-phosphoserine, N-acetyl serine, N-formylmethionine, 3-methylhistidine, 5-hydroxylysine, s-N-methylarginine, and other similar amino acids and imino acids (e.g., 4-hydroxyproline). The polypeptide used herein is represented by an amino terminal on the left and a carboxy terminal on the right, consistent with conventional standard usage.
The term "polynucleotide" as used herein refers to a polymer of nucleotides of at least 10 bases in length, which may be ribonucleotides or deoxyribonucleotides, or modified forms of nucleotides. Polynucleotides include single-stranded or double-stranded forms of DNA.
The term "operably linked" sequence includes expression control sequences that are linked to the gene of interest, as well as expression control sequences that act in trans or are spaced apart from the gene of interest. "expression control sequence" as used herein refers to a polynucleotide sequence capable of effecting the expression or processing of a coding sequence to which it is linked. Expression control sequences include appropriate transcription initiation, termination, promoter and enhancer sequences; effective RNA processing signals such as splicing and PolyA signals; sequences capable of stabilizing cytoplasmic mRNA; sequences that enhance translation efficiency (e.g., Kozak sequences); sequences that enhance protein stability; sequences that enhance protein secretion when desired. These control sequences vary from host to host in nature; in prokaryotes, these sequences typically include a promoter, a ribosome binding site, and a transcription termination sequence; in eukaryotes, these sequences generally include promoter and transcription termination sequences. The term "control sequences" includes at least all components necessary for expression and processing, as well as other components useful for expression and processing, such as leader sequences and fusion sequences.
The term "vector" as used herein refers to a nucleic acid molecule capable of transporting other nucleic acids to which it is linked. One type of vector is a "plasmid", which is a circular double-stranded DNA into which other DNA segments can be inserted. Another type of vector is a viral vector, into which additional DNA segments can be inserted into the viral genome. Certain vectors are capable of autonomous replication in a host cell into which they enter (e.g., bacterial vectors comprising a bacterial origin of replication and episomal mammalian vectors). Some vectors (e.g., non-episomal mammalian vectors) can be integrated into the genome of a host cell upon entry into the host cell, and are replicated along with the host genome. In addition, certain vectors can direct the expression of genes to which they are linked. Such vectors are referred to herein as "recombinant expression vectors" (or simply "expression vectors"). Expression vectors used in recombinant DNA technology are generally in the form of plasmids. "plasmid" and "vector" are used interchangeably herein, as plasmids are the most commonly used form of vector. However, the invention encompasses other forms of expression vectors, such as viral vectors (e.g., replication defective retroviruses, adenoviruses and adeno-associated viruses), which serve the same function.
The term "recombinant host cell" (or simply "host cell") as used herein refers to a cell which is transformed into a recombinant expression vector. It is noted that this term refers not only to the particular original cell, but also to its progeny. Certain alterations may occur in the progeny cell, either due to mutation or due to environmental factors, such that they are not identical to the parent cell, but are still included within the scope of the term "host cell" as used herein.
The term "patient" includes human and animal patients.
Throughout the specification and claims the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated number or group of numbers but not the exclusion of any other number or group of numbers.
Drawings
FIG. 1 shows a SDS-PAGE pattern of the recombinant SARS-CoV 2NP protein of the present invention;
FIG. 2 is a graph showing the results of detection of antibody titer by indirect ELISA;
FIG. 3 is a graph showing the results of detecting the binding of an antibody to an antigen using WB;
FIG. 4 shows the results of the affinity activity of JS01 detected by SPR;
FIG. 5 shows the results of the affinity activity of JS02 detected by SPR;
FIG. 6 is a graph showing the results of detecting the affinity activity of JS03 using SPR;
FIG. 7 is a graph showing the results of detecting the affinity activity of JS04 using SPR;
FIG. 8 is a graph showing the results of detecting the affinity activity of JS05 using SPR;
FIG. 9 is a graph showing the results of detecting the affinity activity of JS06 using SPR;
FIG. 10 is a graph showing the results of detecting the affinity activity of JS07 using SPR;
FIG. 11 is a graph showing the results of detecting the affinity activity of JS08 using SPR;
FIG. 12 is a graph showing the results of detecting the affinity activity of JS09 using SPR;
FIG. 13 is a graph showing the results of detecting the affinity activity of JS10 using SPR;
FIG. 14 is a graph showing the results of detecting the affinity activity of JS11 using SPR;
FIG. 15 is a graph showing the results of detecting the affinity activity of JS12 using SPR;
FIG. 16 is a graph showing the results of detecting the affinity activity of JS13 using SPR;
FIG. 17 is a graph showing the results of detecting the affinity activity of JS14 using SPR;
FIG. 18 is a graph showing the results of detecting the affinity activity of JS15 using SPR;
FIG. 19 is a graph showing the results of detecting the affinity activity of JS16 using SPR;
FIG. 20 is a graph showing the results of measuring the antibody coating concentration by the double antibody sandwich method;
FIG. 21 is a graph showing the results of detection sensitivity of antibodies by the double antibody sandwich method;
FIG. 22 is a graph showing the detection effect of the antigen detection chromatographic strip of the present invention.
Detailed Description
The invention is further illustrated by the figures and examples. It should be understood that the examples of the present invention are for illustrative purposes and not intended to limit the present invention. Simple modifications of the invention in accordance with its spirit fall within the scope of the claimed invention.
Example 1 antibody screening
Expression of recombinant SARS-CoV2 Nucleoprotein (NP)
1.1 Primary reagents
The SARS-CoV 2NP gene sequence (GenBank sequence number: MT066176.1) and the related primer synthesis and sequencing are all completed by general biological systems (Anhui) limited company; coli DH5 α, BL21(DE3) competent cells were purchased from general biosystems (anhui) ltd; BamHI and NotI endonucleases were purchased from New England Biolabs (NEB); EX Taq enzyme was purchased from TaKaRa; HRP-labeled anti-human Fc antibody was purchased from Sigma; other chemical reagents are domestic analytical pure reagents; serum from 2019-nCoV infected patients was collected and stored in the center.
1.2 prokaryotic expression plasmid construction
Designing a prokaryotic expression primer of the NP gene, wherein an upstream primer is provided with a BamH I restriction site, and a downstream primer is provided with a Not I restriction site. The primer sequence is as follows: cov2-NP-F: CGGGATCCTCTGATAATGGACCCCAAAATC; cov2-NP-R: ATAAGAATGCGGCCGCAGGCCTGAGTTGAGTCAGCAC. The NP gene was amplified using EX Taq enzyme, and the PCR reaction program was: 3min at 94 ℃; 30 cycles of 94 ℃ for 30s,58 ℃ for 30s and 72 ℃ for 80 s; 10min at 72 ℃. And recovering a 1300 bp target fragment from the PCR product by using glue, performing double enzyme digestion on the PCR product by using BamH I and Not I, connecting the PCR product with a pET28a vector, and transforming E.coli DH5 alpha competent cells. After single colony is selected the next day and sequenced correctly, the quality-improved particles are transformed into prokaryotic expression bacterium E.coli BL21(DE3) competent cells.
1.3NP expression and purification
Culturing NP expressing strain until OD600 is 0.6, adding IPTG with final concentration of 0.5mmol/L, inducing at 16 deg.C for 6h, collecting thallus, ultrasonic crushing, and centrifuging to collect inclusion body. The inclusion bodies were dissolved in 8mol/L urea and then purified by nickel column affinity chromatography. After purification, the urea content is reduced in a gradient manner, the protein is dialyzed and renatured into PBS, and finally the protein expression and purification effects are detected by SDS-PAGE. After the small amount of fermentation is finished, the mixture is put into a 100L fermentation tank for mass fermentation, the fermentation medium is a TB medium (1% glycerol), the fermentation parameter is 280rpm, the aeration ratio is 0.5vvm (15L/min), the pH is controlled to be 6.8-7.2, the tank pressure is 0.06 MPa-0.1 MPa, the fermentation temperature is 16 ℃, and the mixture is cultured for 24 hours.
The SDS-PAGE results showed: the total length of the NP plus His tag and other additional amino acids in the vector predicted that the protein had a relative molecular mass of about 50X 103. The expression strain is found to be 50 multiplied by 10 after being induced by IPTG3There is a clear band around, consistent with the expected molecular weight size (FIG. 1A). After the inclusion body is dissolved, the inclusion body is purified by a nickel column, and an obvious elution peak is obtained when the concentration is 150mmol/L imidazole. After the proteins were renatured by dialysis, a single protein band was found to appear at the same position by SDS-PAGE (FIG. 1B). This indicates that the NP was successfully induced and purified to a higher degree. Note: in the figure, M: proteins, Makers; 1: uninduced pET28a-NP expressing bacteria; 2: pET28a-NP recombinant expression bacteria after IPTG induction; 3: and (4) purifying to obtain the recombinant nucleocapsid protein.
Second, phage library construction
1. Collecting peripheral blood of patient with COVID-19 in convalescent period, and separating mononuclear cells (PBMC) from the peripheral blood
After informed consent, 5 COVID-19 samples were collected to confirm that 20ml of each peripheral blood was present before discharge. Mononuclear Cells (PBMC) were separated from 20ml of heparin anticoagulated using GE Ficoll-Paque PLUS by density gradient centrifugation.
2. Extraction of RNA and cDNA Synthesis in PBMC
PBMC cell RNA was extracted using the RNeasy Mini Kit from QIAGEN, and then the RNA was reverse-transcribed into cDNA using the First Strand Synthesis Kit from Roche (Transcriptor First Strand cDNA Synthesis Kit, Roche, Cat No.: 04896866001).
3. PCR amplification of VK, VL and VH (EX Taq, Takara, Cat No.: DRR001A)
(1) The amplification VK & VL system is shown in Table 1.
TABLE 1 amplification VK & VL system
Solutions or compositions | Volume (μ L) |
|
1 |
EX Buffer(10x) | 5 |
dNTPs(10mM each) | 4 |
P1(10μM) | 2 |
P2(10μM) | 2 |
EX Taq 1U/μl | 0.3 |
dH2O | 35.7 |
(2) The amplified heavy chain Fd fragment system is shown in Table 2.
TABLE 2 amplification of heavy chain Fd segment systems
Solutions or compositions | Volume (μ L) |
|
2 |
EX Buffer(10x) | 10 |
dNTPs(10mM each) | 8 |
P1(10μM) | 2 |
P2(10μM) | 2 |
EX Taq 1U/μl | 0.6 |
dH2O | 75.4 |
(3) The reaction sequence is shown in table 3.
TABLE 3 reaction procedure
The PCR product was electrophoresed through 2% agarose gel, and a fragment of about 750bp was recovered.
4. Cloning of the light chain (cloning VK and VL into pComb3H vector)
VK and VL were digested with XbaI and SacI and ligated with pComb3H vector, which was also digested with XbaI and SacI, and the ligation product was recovered and then transfected into XL1-Blue competent cells.
And (3) coating the electric shock bacterium liquid on a 15cm large plate, scraping the bacterium the next day, and obtaining the quality-improved particles, namely the light chain library. The recombinant plasmids were pComb3H-VK and pComb3H-VL at this time.
5. Heavy chain cloning (cloning VH Gene into pComb3H-VK and pComb3H-VL light chain Bank)
The light chain library pComb3-L and Fd fragments are respectively subjected to double enzyme digestion by XhoI and SpeI, are connected with pComb3H-VK and pComb3H-VL which are also subjected to double enzyme digestion by XhoI and SpeI, and are then electrically transformed to obtain the antibody library.
6. Packaging of antibody libraries
(1) Taking out the antibody library from a refrigerator at the temperature of-80 ℃, melting on ice, adding 1ml of the antibody library into 10ml of A + (20 mu g/ml)2YT culture medium, and shaking at the temperature of 37 ℃ and 200rpm for 1 hour;
(2) adding 100ml of A + (100. mu.g/ml), T + (20. mu.g/ml) 2YT medium, and shaking at 200rpm for 1 hour;
(3) plus 1012pfu VCSM13 helper phage, standing at 37 deg.C for 20min, shaking at 200rpm for 2 hr;
(4) adding 70 mu g/ml kanamycin at 30 ℃ and shaking at 200rpm overnight;
(5) centrifuging at 6000rpm for 20min the next day, pouring out the supernatant, adding 4% PEG8000(4g) and 3% NaCl (3g), mixing, and placing on ice for more than 30 min;
(6) and subpackaging in a 50ml centrifuge tube, centrifuging at 9000rpm for 25min, removing supernatant, draining, and resuspending the precipitate with 1ml PBS to obtain the packaged library.
Screening of phage library
1. The recombinant SARS-CoV2 Nucleoprotein (NP) was coated in an immune tube, 3 tubes were coated at 50. mu.g/tube, and left overnight at 4 ℃ with 2% skim milk for the next day to block the immune tube for 1 h.
2. 1.75ml of PBS containing 2% skim milk and 250. mu.l of the phage library were added to the tube, shaken at 37 ℃ for 1h, and then allowed to stand at 37 ℃ for 1 h.
3. The phage library was inverted and washed 20 times with PBST, 5min each.
4. The tube was eluted with 1ml Gly-HCl pH 2.2, left to stand at room temperature for 5min, shaken at 37 ℃ for 5min, then pipetted into a 1.5ml EP tube and neutralized to pH 7 with 57 μ l 2M Tris.
5. The eluate was transferred to a new 50ml centrifuge tube and 10ml of OD 1 fresh XL1-Blue was added immediately, mixed well and incubated at 37 ℃ for 30min, 10ml of 2YT (Amp 100. mu.g/ml, Tet 20. mu.g/ml) was added.
6. Mu.l of the broth was used to determine the volume of the elution pool, and 20ml of the remaining medium was poured into a 500ml Erlenmeyer flask and shaken at 230rpm for 1 hour.
7. 130ml of 2YT (Amp 100ug/ml, Tet 20. mu.g/ml) were added, shaken at 230rpm for 1 h.
8. The helper phage with MOI 20 was added and incubated at 37 ℃ for 30 min.
9. Centrifuge at 3000g for 10min, resuspend pellet into 150ml 2YT (Amp 100. mu.g/ml, Tet 20. mu.g/ml), shake at 37 ℃ at 230rpm for 2 h.
10. 110. mu.l of 70mg/ml kanamycin was added, and 30 ℃ overnight at 230 rpm. Adding 1/5 volume of PEG-NaCl (40ml) the next day, mixing, ice-cooling for at least 1h, centrifuging at 10000g and 4 deg.C for 20min, suspending the precipitate in 2-3ml PBS, centrifuging instantaneously to remove bacteria, and filtering with 0.45 μm filter for the next round of screening.
11. Repeating the screening step for 3 times to achieve the purpose of enriching and screening the phage library.
12. After the third round of enrichment, 2 x 96 clones were picked. After IPTG induction, ELSA detection was performed the next day.
Four, ELISA detection of 2 x 96 clones binding specificity
1.2 pieces of anti-human Fab antibody (1:3000) and 2 pieces of NP protein (2. mu.g/ml) were coated separately and left overnight at 4 ℃.
2. The next day was blocked with 3% skim milk for 1h, then 50. mu.l of induction supernatant and 50. mu.l of skim milk were added, incubated at 37 ℃ for 1h, and washed with PBST.
3. HRP-labeled anti-human Fab antibody (1:3000) was added to each of the 4 plates, incubated at 37 ℃ for 1h, washed with PBST, and then TMB developed.
178 phage antibody fragments which can be specifically combined with NP are obtained through screening, and the fragments are Fab fragments of human origin, including full-length light chain and Fd fragment of heavy chain. 178 single colonies were amplified and sequenced to obtain 159 strains of complete and qualified sequences.
Example 2 expression of full antibodies and related functional validation
Finally selecting 16 antibodies from the 159 antibodies for expression of the whole antibody and relevant function verification, and naming the 16 antibodies as JS01-JS 16.
Wherein the JS11 antibody sequence is shown as follows:
the amino acid sequence of the heavy chain variable region CDR1 is shown in SEQ ID NO. 1;
the amino acid sequence of the heavy chain variable region CDR2 is shown in SEQ ID NO. 2;
the amino acid sequence of the heavy chain variable region CDR3 is shown in SEQ ID NO. 3;
the amino acid sequence of CDR1 in the variable region of the light chain is shown in SEQ ID NO. 5;
the amino acid sequence of CDR2 in the variable region of the light chain is shown in SEQ ID NO. 6;
the amino acid sequence of CDR3 in the variable region of the light chain is shown in SEQ ID NO. 7;
the amino acid sequence of the heavy chain variable region is shown as SEQ ID NO.4, and the nucleic acid sequence is shown as SEQ ID NO. 17; the amino acid sequence of the light chain variable region is shown as SEQ ID NO.8, and the nucleic acid sequence is shown as SEQ ID NO. 18.
The JS08 antibody sequence is shown below:
the amino acid sequence of the heavy chain variable region CDR1 is shown in SEQ ID NO. 9;
the amino acid sequence of the heavy chain variable region CDR2 is shown in SEQ ID NO. 10;
the amino acid sequence of CDR3 in the heavy chain variable region is shown in SEQ ID NO. 11;
the amino acid sequence of CDR1 in the variable region of the light chain is shown in SEQ ID NO. 13;
the amino acid sequence of CDR2 in the variable region of the light chain is shown in SEQ ID NO. 14;
the amino acid sequence of CDR3 in the variable region of the light chain is shown in SEQ ID NO. 15.
The amino acid sequence of the heavy chain variable region is shown as SEQ ID NO. 12; the amino acid sequence of the light chain variable region is shown in SEQ ID NO. 16.
1. Full antibody expression
The 16-strain humanized antibody is constructed into an IgG-type humanized whole molecule antibody, expressed in 293F cells and purified by Protein A for later use.
2. ELISA (enzyme-Linked immuno sorbent assay) for detecting binding specificity of 16-strain antibody and recombinant NP
Recombinant NPs were coated onto ELISA plates with PBS at a concentration of 1. mu.g/ml, all antibody concentrations were diluted to 1mg/ml, then diluted in multiples starting at 1:10000 and incubated at 37 ℃ for 30 min. Then PBST was washed 3 times, HRP-labeled anti-human IgG (1:5000) was added, and after incubation at 37 ℃ for 30min, PBST was washed 3 times, then TMB was developed, and OD450 absorbance values were read after termination.
The dilution titer of the 16 NP antibody was measured by indirect ELISA, and the average OD value of the negative control was 0.119 with a standard deviation of 0.132, so that the cutoff value was defined asThe detection titer of the 16-strain antibody was judged to be between 1:80000 and 1:1280000 (FIG. 2).
3. Western Blot results of 16 antibodies and purified NP
Mu.g of the recombinant NP was electrophoresed by SDS-PAGE, transferred to a PVDF membrane, incubated with the above 16 antibodies (0.5. mu.g/ml) at 37 ℃ for 1h, washed 3 times with PBST, then incubated with HRP-labeled anti-human IgG (1:5000) for 30min, washed 3 times with PBST, and then developed on the membrane with DAB.
WB experimental results showed that 16 antibodies were able to specifically bind to recombinantly expressed Nucleoprotein (NP) and a distinct band of color appeared at 50kDa, suggesting that the group of antibodies were all linear epitope antibodies (fig. 3).
4. Antibody affinity activity detection
The antibody affinity determination is completed by a Biacore T200 workstation and is carried out according to the following steps: the CM5 chip was first activated with amino-coupled activators NHS and EDC at 10. mu.l/min for 300s, then the recombinantly expressed SARS-CoV-2NP was diluted to 1ug/mL with 10mM sodium acetate buffer (pH5.5), the Response values (RUs) were brought to around 600 by flowing 10. mu.l/min through the chip for 30s, and finally 10. mu.l/min, 420s were set, and the remaining activated sites on the chip surface were blocked with ethanolamine. Serially diluted antibodies were sequentially injected at 25 ℃ at a flow rate of 30. mu.l/min, and after each concentration measurement, CM5 chips were regenerated with glycine-hydrochloric acid of pH 2.0, and then subjected to the next concentration measurement. After the experiment was completed, binding affinity was obtained by global fitting of the curve using Biacore T200 Evaluation Software.
The experimental results are shown in FIGS. 4-19, JS01-JS16 can efficiently bind to SARS-CoV-2NP protein, and the parameters related to the affinity activity are shown in Table 4.
TABLE 4 antibody affinity parameters
5. Antibody pairing assay
5.1 determination of antibody coating concentration
(1) Mu.l of JS12 antibody was diluted from 5. mu.g/ml to 0.0024. mu.g/ml for 12 dilutions before being coated in ELISA plates. Coating at 4 deg.C overnight, blocking with 1% BSA for 2h, and washing with PBST for 3 times.
(2) 50ng of recombinant NP was added to the first well of each coating concentration, then diluted in multiples to 0.39 ng/well for 8 dilutions, incubated for 1h at 37 ℃ and washed 3 times with PBST.
(3) Adding HRP marked JS08 diluted at 1:1000, incubating for 1h at 37 ℃, PBST washing for 3 times, and reading the OD450nm absorbance value after TMB color development.
As can be seen from the graph in FIG. 20, the amount of the coated antibody has an effect on the detection sensitivity, and the amount of the coating from 5. mu.g/ml to 0.00245. mu.g/ml is not so much affected, and the sensitivity for detecting the NP antigen is less than 3.9 ng/ml. Therefore, in all subsequent pairing experiments, we chose a concentration of 2. mu.g/ml as the antibody coating and 1:4000 as the dilution of the enzyme-labeled antibody.
5.2 double antibody Sandwich method for detecting NP
(1) 16 NP antibodies JS01-JS16 were coated on ELISA plates at 2. mu.g/ml, coated overnight at 4 ℃, blocked with 1% BSA for 2h the next time, and washed with PBST for 3 times.
(2) 0.1. mu.g/ml recombinant NP protein was added, then diluted in multiples to 0.78ng/ml for 8 dilutions, incubated at 37 ℃ for 1h, and washed 3 times with PBST.
(3) HRP-labeled JS08(1:1000) was added, incubated at 37 ℃ for 1h, PBST washed 3 times, TMB developed, and OD450nm absorbance values were read.
As can be seen from FIG. 21, enzyme-labeled JS08 cannot pair with JS06, JS11 and JS08 per se, but can pair with other 13 NP antibodies for double antibody sandwich NP detection. The JS08 and JS16 have the best matching effect, the detection limit can reach below 0.78ng/ml, and the detection limit of other matched antibodies is 12.5-1.56 ng/ml.
6. Sensitivity of double-antibody sandwich immunochromatography for detecting recombinant NP
The anti-JS 08 monoclonal antibody is coated on a nitrocellulose membrane to form a T line, and the anti-human IgG antibody is marked to the C line. After the NP protein is diluted in series, 50 mu L of the NP protein is added into a sample hole, JS01-JS16 antibodies of the labeled colored microspheres on a binding pad under the sample hole and the NP form an immune complex, then the immune complex is migrated to a T line through chromatography, and the T line is combined and fixed with the labeled antibodies to form a colored T line. And the redundant humanized monoclonal antibodies are continuously transferred to the C line and combined with the anti-human antibodies to form the C line. This was used to determine the binding sensitivity to NP.
Respectively matching the JS08 antibody marked by the colored microspheres with the 13 strains of antibodies to prepare the antigen detection chromatographic strip. When the test strip is verified by using 2ng/ml of recombinant NP, all chromatographic strips can see a remarkable detection T line and a quality control C line is also very remarkable (FIG. 22). This indicates that both 13 pairs of antibody combinations can be used to detect nucleoproteins of the novel coronavirus with a limit of detection of less than 2 ng/ml.
Although only specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that these are by way of illustration only, and that the scope of the invention is defined by the appended claims. Various changes or modifications to these embodiments may be made by those skilled in the art without departing from the principle and spirit of the invention, and these changes or modifications are within the scope of the invention.
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Claims (11)
1. An antibody or antigen-binding fragment thereof capable of specifically binding to a novel coronavirus NP protein, wherein said antibody or antigen-binding fragment thereof comprises a heavy chain variable region and a light chain variable region, and the amino acid sequence of the CDR region of said heavy chain variable region is represented by SEQ ID NO. 1-3; the amino acid sequence of the CDR region of the light chain variable region is shown in SEQ ID NO. 5-7.
2. The antibody or antigen-binding fragment thereof of claim 1, wherein the heavy chain variable region has the amino acid sequence set forth in SEQ ID No. 4; the amino acid sequence of the light chain variable region is shown in SEQ ID NO. 8.
3. A polynucleotide molecule encoding the antibody or antigen-binding fragment thereof of claim 1 or 2.
4. The polynucleotide molecule according to claim 3, wherein said polynucleotide molecule comprises the sequences shown in SEQ ID No.17 and 18.
5. An expression vector comprising the polynucleotide molecule of claim 3 or 4 and expression control sequences operably linked thereto.
6. A host cell transformed with the polynucleotide molecule of claim 3 or 4 or the expression vector of claim 5.
7. A method of making an antibody or antigen-binding portion thereof that specifically binds to a novel coronavirus NP protein, said method comprising the step of culturing the host cell of claim 6.
8. A composition or kit comprising the antibody or antigen-binding fragment thereof of claim 1 or 2.
9. The composition or kit of claim 8, further comprising a second antibody or antigen-binding fragment thereof, wherein the second antibody comprises heavy chain variable region CDR1, heavy chain variable region CDR2, heavy chain variable region CDR3, light chain variable region CDR1, light chain variable region CDR2, light chain variable region CDR 3; wherein the content of the first and second substances,
the amino acid sequence of the heavy chain variable region CDR1 is shown in SEQ ID NO. 9;
the amino acid sequence of the heavy chain variable region CDR2 is shown in SEQ ID NO. 10;
the amino acid sequence of CDR3 in the heavy chain variable region is shown in SEQ ID NO. 11;
the amino acid sequence of CDR1 in the variable region of the light chain is shown in SEQ ID NO. 13;
the amino acid sequence of CDR2 in the variable region of the light chain is shown in SEQ ID NO. 14;
the amino acid sequence of CDR3 in the variable region of the light chain is shown in SEQ ID NO. 15.
10. The composition or kit of claim 9, wherein the second antibody comprises a heavy chain variable region, a light chain variable region; wherein the amino acid sequence of the heavy chain variable region is shown as SEQ ID NO.12, and the amino acid sequence of the light chain variable region is shown as SEQ ID NO. 16.
11. A use comprising the use of any one of:
(1) use of the antibody or antigen-binding fragment thereof of claim 1 or 2 for the preparation of a novel coronavirus detection product;
(2) use of the antibody or antigen-binding fragment thereof of claim 1 or 2 for the preparation of a novel diagnostic product for coronavirus infection;
(3) use of a composition according to any one of claims 8 to 10 for the preparation of a product for the detection of a novel coronavirus.
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