Identification and epitope mapping of anti-p72 single-chain antibody against African swine fever virus based on phage display antibody library

African swine fever virus(ASFV)is a lethal pathogen that causes severe threats to the global swine industry and it has already had catastrophic socio-economic effects.To date,no licensed prophylactic vaccine exists.Limited knowledge exists about the major immunogens of ASFV and the epitope mapping of the key antigens.As such,there is a considerable requirement to understand the functional monoclonal antibodies(mAbs)and the epitope mapping may be of utmost importance in our understanding of immune responses and designing improved vaccines,therapeutics,and diagnostics.In this study,we generated an ASFV antibody phage-display library from ASFV convalescent swine PBMCs,further screened a specific ASFV major capsid protein(p72)single-chain antibody and fused with an IgG Fc fragment(scFv-83-Fc),which is a specific recognition antibody against ASFV Pig/HLJ/2018 strain.Using the scFv-83-Fc mAb,we selected a conserved epitope peptide(221MTGYKH226)of p72 retrieved from a phage-displayed random peptide library.Moreover,flow cytometry and cell uptake experiments demonstrated that the epitope peptide can significantly promote BMDCs maturation in vitro and could be effectively uptaken by DCs,which indicated its potential application in vaccine and diagnostic reagent development.Overall,this study provided a valuable platform for identifying targets for ASFV vaccine development,as well as to facilitate the optimization design of subunit vaccine and diagnostic reagents.

Construction of normal human IgE phage antibody library and the screening of the anti-trichosanthin IgE

Allergen specific IgE response is the major cause of immediate hypersensitivity. However the number of IgEproducing B cells and the amount of IgE, especially the specific IgE, are so low, it greatly impedes the study of the allergic-specifc antibody responses. Here we report the construction of a normal human IgE combinatorial library The repertoire of IgE VH genes and of K genes were separately amplified from normal human peripheral blood lymphocytes through RT-PCR, and were then constructed to form the phage surface display human Fab(IgEVH) library. A plant protein allergen, trichosanthin(TCS), was used to affinity-enrich and to screen the anti-TCS phage HuFab clones from the library. Human IgE(Fab) to TCS were detected.

Staphylococcus aureusβ-hemolysin-neutralizing single-domain antibody isolated from phage display library of Indian desert camel

Objective:To isolate and characterize Staphylococcus aureus(S.aureus)β-hemolysinneutralizing dAbs from phage display library of Indian desert camel.Methods:Phage display library of 5×10 dAb clones of LPS-immunized Indian desert camel constructed in our laboratory was used for selection of S.aureus exotoxin-specific clones by panning technique.Enrichment of Ag-specific clones in successive rounds of panning was assessed by phage-ELISA and phage titration.Different dAb clones binding to S.aureus exotoxin Ags were expressed with C-terminal 6×His tag in E.coli and purified by Ni-chelate chromatography.The expression was verified by SDS-PAGE and western blotting.The purified clones were tested for inhibition of ’hot-cold’ hemolytic activity in vitro.Resistance to thermal inactivation of the dAb clones was studied by observing the effect of heat treatment from 50℃to 99℃for 30 min on the ’hot-cold’ hemolytic activity in vitro.Results:Several dAb clones binding to S.aureus exotoxins were isolated and enriched by three rounds of panning.The soluble dAb clones were approximately～16 kDa in size and reacted with 6×His tag specific murine monoclonal antibody in western blot.One of the Ni-chelate affinity purified dAb.6×His clones,inhibited S.aureusβ-hemolysin activity in vitro and resisted thermal inactivation upto 991.Conclusions:An S.aureusβ-hemolysinneutralizing dAb clone of possible therapeutic potential has been isolated.

Rapid Selection of Phage Se-scFv with GPX Activity via Combination of Phage Display Antibody Library with Chemical Modification

Glutathione peroxidase（GPX） plays an important role in scavenging reactive oxygen species. A series of catalytic antibodies with GPX activity have been generated by the authors of＇ this study. To obtain humanized catalytic antibodies, the phage-displayed human antibody library was used to select novel antibodies by repetitive screening, Phage antibodies, scFv-B8 and scFv-H6 with the GSH-binding site, were obtained from the library by enzyme-linked immu- nosorbent assay（ELISA） analysis with 4 rounds of scelection against their respective haptens, S-2,4-dinitriphenyl t-butyl ester（GStI-s-DNP-Bu） and S-2,4-dinit,-iphenyl t-hexyl ester（GSH-s-I）NP-He）. Nevertheless, several studies need to be condueted to determine whether scFv-B8 and seFv-tI6 possess GPX activity. 1＇o enhance the speed of the selection, selenocysteine（Sec, the catalytic group of GPX） was incorporated directly into the phages, scFv-B8 and seFv-H6, by chemical mutation to form the phages Se-scFv-B8 and Se-scFv-H6. The GPX activities were found to be 3012 units/μmol and 2102 units/μmol, respectively. To improve the GPX activity of the phage Se-scFv-B8, DNA shuffling was used to construct a secondary library and another positive phage antibody scFv-B9 was screened out by another panning against GSH-s-DNP-Bu. When Sec was incorporated via chemical mutation into the phage antibody scFv-B9, its GPX activity reached 3560 units/μmol, which is 1.17-fold higher than the phage antibody Se-scFv-B8 and almost approached the order of magnitude of native GPX. The rapid selection is the prerequisite for generating humanized Se-seFv with GPX activity.

Antibody Phage Library Screening Efficiency Measured by KD Values

An antibody phage library was screened with two target molecules, IFNα-2a and FGFR-GST, and the KD value of each round of panning was measured. It was found that the apparent KD values decreased along with each additional panning round, which indicates the increase of the binding affinity between the phage and the target molecules. This result shows that the KD value is a reliable intrinsic parameter and a new method for screening efficiency detection is thus provided.

Screening of scFvs against cTnI from Phage Display Antibody Library and Their Expression in E.coli Rosetta

The single chain variable fragments of antibodies(scFvs) against cTnI were screened from the phage display antibody library by using cTnI as the target antigen. After four rounds of panning, four clones(H2, G5, A9, B9) from the phage display antibody library were verified to show higher binding affinity for cTnI by ELISA and to contain the variable region genes of the light and heavy chains of scFvs by sequencing. The variable region genes of scFvs H2 and G5 were successfully amplified by polymerase chain reactions(PCR) and cloned into expression vector pPELB and expressed as a soluble protein in E.coli Rosetta, whose expression yield was about 2% of total proteins. The expressed proteins were purified by nickel(Ni) affinity chromatography and a single band is shown in the position of 28 kDa on SDS-PAGE. The western blot analysis result verifies that the expressed scFv proteins are capable of binding with monoclonal antibodies against hexa-histidine, indicating that they are hexa-histidin-tagged aim proteins. The immunoassay demonstrates that the expressed scFv proteins are able to specifically react with cTnI molecules. The association constant(K_A) values range from 1.2×10 4 to 1.7 ×10 5 L/mol that are correspondent to the affinities of polyclonal antibodies against cTnI from rabbits. These antibodies can be valuable reagents for the immunoassay of cTnI.

ISOLATION OF ENDOTOXIN-SPECIFIC ANTIBODIES BY SELECTION OF AN SINGLE CHAIN PHAGE ANTIBODY LIBRARY

Objective: To isolate murine anti endotoxin single chain phage antibody from a constructed library. Methods: Total RNA was firstly extracted from murine splenic cells and mRNA was reverse-transcribed into cDNA. Then the designed primers were used to amplify the variable region genes of the heavy and light chain (VH, VL) with polymerase chain reaction. The linker was used to assemble the VH and VL into ScFv, and the NotI and SfiI restriction enzymes were used to digest the ScFv in order to ligate into the pCANTAB5E phagemid vector that was already digested with the same restriction enzymes. The ligated vector was then introduced into competent E.coli TG1 cells to construct a single-chain phage antibody library. After rescued with M13KO7 helper phage, recombinant phages displaying ScFv fragments were harvested from the supernatant and selected with endotoxin. The enriched positive clones were reinfected into TG1 cells. Finally, 190 clones were randomly selected to detect the anti endotoxin antibody with indirect ELISA. Results: The titer of anti endotoxin in murine sera was 1:12,800. The concentration of total RNA was 12.38 μg/ml. 1.9×107 clones were obtained after transformed into TG1. 3×104 colonies were gotten after one round panning. Two positive colonies were confirmed with indirect ELISA among 190 randomly selected colonies. Conclusion: A 1.9×107 murine anti endotoxin single chain phage antibody library was successfully constructed. Two anti endotoxin antibodies were obtained from the library.

Isolation of Human Antibodies Against Hepatitis E Virus From Phage Display Library by Immobilized Metal Affinity Chromatography

Objective To isolate human antibodies against hepatitis E virus from phage display library by a new method of panning phage antibody library based on immobilized metal affinity chromatography （1MAC）. Methods Phage antibody library was allowed to mix with hex-His tagged expressed HEV specific antigen, NE2, in solution for adequate binding before affinity resin for hex-His was added. The non-specific phage antibodies were removed by extensive washing and the specific bound phage antibodies could then be eluted to infect TG1 or repeat the binding process for subsequent rounds of purification. The specificity of the selected human antibodies were tested by antigen competitive ELISA, human sera blocking ELISA, scFv expression, and sequence analysis. Results His-NE2 specific recombinant phages were successfully enriched after panning procedure. Two individual phage clones, 126 and 138, showed 50% inhibition in NE2 antigen competition ELISA and obvious blocking effect by HEV positive serum in blocking ELISA. Soluble scFv of 126, 138 bound to NE2 specifically. Conclusion Two specific human phage antibodies against hepatitis E virus （HEV） from phage display library were isolated by immobilized metal affinity chromatography. The immobilized metal affinity chromatography applied to phage antibody selection was a helpful supplement to the selection in solution.

Selection of humanized antibody against HBsAg and analysis of gene encoding its heavy chain

Objective: To select a human phage antibody against HBsAg and sequence the heavy chain and light chain gene. Methods: Human immunoglobulin combinatorial library was generated by using phage surface display expression system, from which phage antibodies (Fab fragments ) against HBsAg were screened, and their antigenbinding activity and specificity were assayed by ELISA and competition inhibition ELISA. The heavy chain gene was seqllenced by 373A automatic DNA sequence analysis machine. Results: A human phage antibody against HBsAg was obtained. It’s heavy chain gene was whole, but it’s light chain gene was lost. Conclusion: The VH gene of the selected antibody belonged to VH I subgroup. The antibody fragment with whole heavy chain and withoutlight chain also showed strong binding activity to HBsAg.

Screening and evaluation of human single-chain fragment variable antibody against hepatitis B virus surface antigen

BACKGROUND: Phage display technology has become a vital tool in studies aimed at identifying molecules binding to a specific target. It enables the rapid generation and selection of high affinity, fully human antibody product candidates to essentially any disease target appropriate for antibody therapy. In this study, we prepared the recombinant single-chain fragment variable ( ScFv) antibody to hepatitis B virus surface antigen (HBsAg) by the phage display technology for obtaining a virus-targeting mediator. METHODS: mRNA was isolated from B-lymphocytes from a healthy volunteer and converted into cDNA. The fragment variables of heavy and light chain were amplified separately and assembled into ScFv DNA with a specially constructed DNA linker by polymerase chain reaction. The ScFv DNA was ligated into the phagmid vector pCANT-AB5E and the ligated sample was transformed into competent E. coli TG1. The transformed cells were infected with M13K07 helper phage to form a human recombinant phage antibody library. The volume and recombinant rate of the library were evaluated by bacterial colony count and restriction analysis. After two rounds of panning with HBsAg. the phage clones displaying ScFv of the antibody were selected by enzyme-linked immunosorbant assay ( ELISA) from the enriched phage clones. The antigen binding affinity of the positive clone was detected by competition ELISA. HB2151 E. coli was transfected with the positive phage clone demonstrated by competition ELISA for production of a soluble form of the anti-HBsAg ScFv. ELISA assay was used to detect the antigen binding affinity of the soluble anti-HBsAg ScFv. Finally, the relative molecular mass of soluble anti-HBsAg ScFv was measured by SDS-PAGE. RESULTS: The variable heavy ( VH ) and variable light (VL) and ScFv DNAs were about 340bp, 320bp and 750bp, respectively. The volume of the library was up to 2 × 106 and 8 of 10 random clones were recombinants. Two phage clones could strongly compete with the original HBsAb for binding to HBsAg. Within 2 strong positive phage clones, the soluble anti-HBsAg ScFv from one clone was found to have the binding activity with HBsAg. SDS-PAGE showed that the relative molecular weight of soluble anti-HBsAg ScFv was 32 kDa. CONCLUSION: The anti-HBsAg ScFv successfully produced by phage antibody technology may be useful for broadening the scope of application of the antibody.

Construction and diversity analysis of a murine IgEphage surface display library

To make further investigation of the IgE antibodyrepertoire in Trichosanthin (TCS) allergic responses, amurine IgE phage surface display library was constructed(3.0×105 independent clones). We first constructed theVe cDNA library (4.6×105 independent clones) and VκcDNA library (3.0×105 independent clones). Then, theVε and Vκ gene segments were amplified from both libraries by PCR respectively, and assembled into Fab fragment by SOE PCR. The phage library containing Fabs wasthus constructed. The diversity of Vε from this library wasanalyzed and proved. Fab clones with high specificity toTCS have been screened out.

An overview on application of phage display technique in immunological studies

Phage display is very strong technique in drug discovery and development. Phage display has many applications in improving the immunological studies. Development of monoclonal antibody, peptides, peptidomimetics and epitope mapping are main application of phage display. Selection of monoclonal antibody or peptides that are displayed on the surface of the phages can be occurred through biopanning process. In biopanning process phage library is incubated with antigen and particular phages can be identified and isolated. Increasing the stringency in the biopanning rounds can be help to select phages with high affinity and specificity. Here, we describe an overview of phage display application with focusing on monoclonal antibody production and epitope mapping.

Frontier of therapeutic antibody discovery:The challenges and how to face them

Therapeutic monoclonal antibodies have become an important class of modern medicines.The established technologies for therapeutic antibody discovery such as humanization of mouse antibodies,phage display of human antibody libraries and transgenic animals harboring human IgG genes have been practiced successfully so far,and many incremental improvements are being made constantly.These methodologies are responsible for currently marketed therapeutic antibodies and for the biopharma industry pipeline which are concentrated on only a few dozen targets.A key challenge for wider application of biotherapeutic approaches is the paucity of truly validated targets for biotherapeutic intervention.The efforts to expand the target space include taking the pathway approach to study the disease correlation.Since many new targets are multi-spanning and multimeric membrane proteins there is a need to develop more effective methods to generate antibodies against these difficult targets.The pharmaceutical properties of therapeutic antibodies are an active area for study concentrating on biophysical characteristics such as thermal stability and aggregation propensity.The immunogenicity of biotherapeutics in humans is a very complex issue and there are no truly predictive animal models to rely on.The in silico and T-cell response approaches identify the potential for immunogenicity;however,one needs contingency plans for emergence of antiproduct antibody response for clinical trials.

Screening for a human single chain Fv antibody against epitope on amyloid-beta 1-40 from a human phage display library

Amyloid-beta peptides （Aβ） are believed to be .responsible for the mental decline in patients with Alzheimer＇s reported that pathology in vaccination disease （AD）. In 1999, Schenk et all immunization with Aβ attenuated AD-like the PDAPP mouse, and developed a new approach to AD. Such vaccines were successfully tested in mouse models of AD for the reduction of Aβ plaque burden and the improvement of cognitive performance. However, 6% of AD patients developed symptoms of brain inflammation after vaccination that resembled enceohalitis or meningitis.

Identification of a gene engineering antibody against cystic echinococcosis in liver

OBJECTIVE: To identify a gene engineering antibody against cystic echinococcosis in liver. METHODS: A single chain of variable fragment of human antibodies (ScFvs) was selected from the library by using affinity selection technique with the recombinant antigen on solid surface. The positive clones were demonstrated by ELISA and their DNA sequences were also determined. RESULTS: The DNA sequence data showed that the antibody gene is composed of 768bp. In addition, a specific combination capacity with recombinant Echinococcus granulosus antigen B (r-EgB) was demonstrated by ELISA. CONCLUSION: The obtained gene engineering antibody against r-EgB may have potential implications in immunological treatment and drug targeting delivery.

Schistosoma japonicum: construction of phage display antibody library and its application in the immunodiagnosis of infection

Background A monoclonal antibody would be an effective tool for the detection of circulating antigens in the serum of patients with schistosomiasis, but the traditional way of producing monoclonal antibodies is not cost-effective. The objective of this study was to find a new method for the large-scale production of monoclonal antibodies against Schistosoma japonicum (Sj).Methods A phage display antibody library for Sj was constructed. To obtain a single-chain variable fragment antibody (scFv) against Sj, the library was screened with metabolic antigens from adult Sj worms (Sj-MAg) using enzyme-linked immunosorbent assay. The soluble scFvs select ed were used to detect Sj antigens in the serum of acute and chronic schistosomiasis patients.Results Six positive clones with good reactivity to Sj-MAg were obtained from the phage display antibody library of about 1.07×10 6 individual clones. Only two of these six clones bound specifically to Sj-MAg and were chosen for further analysis. Specific soluble anti-Sj-MAg scFvs were produced by inducing the 2 clones with isopropyl-D-thiogalactopyranoside. The characteristics of the scFvs were then determined. The results of Western blot showed that these scFvs could bind to Sj-MAg specifically an d had a molecular weight of about 31 kD. When testing serum from schistosomiasis patients with one of the two specific scFvs, its sensitivity was found to be 60% and 37% in acute and chronic patients, respectively, with a specificity of 90%. When the two specific scFvs were combined, their sensitivity was found to be 75% and 57% in acute and chronic patients, respectively, with a specificity of 85%.Conclusions The results indicate that the scFvs are potentially useful for the diagnosis of schistosomiasis. The library construct ion also provides a useful tool for the further screening of other antibodies for both diagnostic and immunotherapeutic applications and for epitope analysis and vaccine design.

Modification and identification of a vector for making a large phage antibody library

Background The large phage antibody library is used to obtain high-affinity human antibody, and the Loxp/cre site-specific recombination system is a potential method for constructing a large phage antibody library. In the present study, a phage antibody library vector pDF was reconstructed to construct diabody more quickly and conveniently without injury to homologous recombination and the expression function of the vector and thus to integrate construction of the large phage antibody library with the preparation of diabodies. Methods scFv was obtained by overlap polymerase chain reaction （PCR） amplification with the newly designed VL and VH extension primers. Ioxp511 was flanked by VL and VH and the endonuclease ACC Ⅲ encoding sequences were introduced on both sides of Ioxp511. scFv was cloned into the vector pDF to obtain the vector pDscFv. The vector expression function was identified and the feasibility of diabody preparation was evaluated. A large phage antibody library was constructed in pDscFv. Several antigens were used to screen the antibody library and the quality of the antibody library was evaluated. Results The phage antibody library expression vector pDscFv was successfully constructed and confirmed to express functional scFv. The large phage antibody library constructed using this vector was of high diversity. Screening of the library on 6 antigens confirmed the generation of specific antibodies to these antigens. Two antibodies were subjected to enzymatic digestion and were prepared into diabody with functional expression. Conclusions The reconstructed vector pDscFv retains its recombination capability and expression function and can be used to construct large phage antibody libraries. It can be used as a convenient and quick method for preparing diabodies after simple enzymatic digestion, which facilitates clinical trials and application of antibody therapy.

抗HBsAg人IgG表达载体的构建及其在CHO细胞中的表达

尝试将 1株来源于人源性噬菌体抗体库的抗HBsAg人Fab ,转换成完整的抗HBsAg人IgG。方法 :采用重叠PCR方法 ,在抗HBsAg人Fab的Vκ和VH基因的 5’端接上人工合成的人κ链的前导序列 ,构建表达完整IgG1的真核表达载体 ,转染CHO(DHFR- )细胞 ,用ELISA、RT PCR和免疫印迹检测抗HBsAg人IgG的表达。通过DHFR MTX体系及金属离子诱导提高Ig表达。结果 :获得表达量在每 2 4h 1μg 10 6 细胞的稳定表达抗HBsAg人IgG的转染细胞系。并证实所表达IgG具有良好特异性及完整Fc段 ,其亲和力约为 2 .1× 10 9M 1 。又通过DHFR MTX扩增系统的作用及金属离子锌和镉对小鼠金属硫蛋白启动子的激活作用 ,使IgG的表达量提高了约 2 0倍。结论 :通过拼接人κ链的前导序列在真核表达系统成功地将抗HBsAg人Fab转换成完整的HBsAg人IgG1,为其进一步应用打下了基础。

从人源性噬菌体抗体库分离出1株含有异常序列的抗HBsAg Fab克隆

曾从人源性噬菌体抗体库中筛选出１株抗人乙肝表面抗原（ＨＢｓＡｇ）的Ｆａｂ克隆，为了筛选出新的抗ＨＢｓＡｇＦａｂ段，采用抗原屏蔽法，用已得到的Ｆａｂ段封闭相应的抗原决定基，对该抗体库进行了再次筛选，得到了１株新的人抗ＨＢｓＡｇＦａｂ段克隆，经序列分析发现其轻链可变区基因来源于Ｖκ１亚群和Ｊκ４基因，重链可变区基因来源于ＶＨ１亚群和ＪＨ４基因，但在ＶＨ第７７位和第７８位氨基酸残基之间出现了７个多余的氨基酸残基，经对基因数据库检索未能查到该序列的来源，但显然这段序列未影响抗体的抗原结合活性。

人源抗HBsAg噬菌体抗体的筛选及其重链基因结构分析

目的：筛选出结合乙型肝炎病毒表面抗原（HBsAg）的人噬菌体抗体（Fab片段）并对其重链和轻链基因序列进行分析．方法；应用噬菌体抗体库技术筛选出人源抗HBsAg噬菌体抗体，并用ELISA及竞争抑制试验测定其活性及特异性，利用全自动测序仪测定其重链基因序列．结果：获得了一株亲和性较高的人源抗HBsAg噬菌体抗体，其具有完整的重链基因，但轻链缺失．结论：获得的人源抗HBsAg噬菌体重链基因可变区（VH）属于人VHI亚群，具有完整重链并缺乏轻链的此抗体片段仍具有较好的抗原结合活性和特异性．