抗病毒噬菌体抗体库研究进展

噬菌体抗体库技术是基于噬菌体表面展示技术发展起来的一项基因抗体工程新技术.它将含亿万种基因的抗体可变区基因库转化成展示在噬菌体表面的蛋白库,不仅使对于具备所需属性的单克隆抗体筛选能更方便、快速、高效地在体外进行,还开辟了单克隆抗体人源化的新途径,揭开了人类单克隆抗体生产的历史新篇章.本文综述了近年来针对各种病毒的噬菌体抗体库的构建、筛选方法以及其在各种病毒性疾病研究中的最新进展.     

噬菌体单链抗体文库的构建及筛选

噬菌体抗体是继多克隆抗体、单克隆抗体之后兴起的第3代基因工程抗体.噬菌体抗体库技术是抗体基因文库技术和噬菌体表面展示技术相结合形成的一项新技术与方法,在生物科学领域极具潜力.现主要就近年来该技术在抗体基因扩增、抗体库的构建、筛选方法等方面的进展进行综述.     

噬菌体抗体库技术研究进展

抗体研究可分多克隆抗体、单克隆抗体和基因工程抗体三个阶段。特别是噬菌体抗体库 (ｐｈａｇｅａｎｔｉｂｏｄｙｌｉｂｒａｒｙ)技术[1 ]可达到不经免疫制备人源性小型化基因工程抗体。这一技术将抗体基因的克隆与表达融为一体 ,是一种新的基因操作技术 ;同时将识别抗原与再扩增能力结合在一起 ,是一种高效的表达和筛选抗体的新一代技术。1　噬菌体抗体库技术的基本原理[2 ,3 ]噬菌体抗体库技术是将抗体ＶＨ和ＶＬ基因与噬菌体的外壳蛋白Ⅲ (ｃｐⅢ )或Ⅷ (ｃｐⅧ )基因随机重组 ,继而感染大肠杆菌 ,经增殖并在噬菌体表面以抗体片段Ｆａｂ…     

噬菌体展示技术发展

噬菌体表面展示技术是一种将外源蛋白或抗体可变区与噬菌体表面特定蛋白质融合并展示于其表面,构建蛋白质或抗体库,并从中筛选特异蛋白质或抗体的基因工程技术。随着该项技术的不断完善和发展,噬菌体展示技术已被广泛应用于生命科学研究的不同领域,并显示了良好的应用前景。     

噬菌体展示技术发展

噬菌体表面展示技术是一种将外源蛋白或抗体可变区与噬菌体表面特定蛋白质融合并展示于其表面,构建蛋白质或抗体库,并从中筛选特异蛋白质或抗体的基因工程技术。随着该项技术的不断完善和发展,噬菌体展示技术已被广泛应用于生命科学研究的不同领域,并显示了良好的应用前景。     

噬菌体展示抗克伦特罗抗体文库的构建及单克隆抗体的筛选

利用小白鼠免疫和噬菌体展示技术构建了噬菌体展示抗体文库,从文库中筛选获得了一株抗克伦特罗单克隆抗体。该抗体的氨基酸序列尚未在世界基因数据库中登录,是一个新的抗体。该抗体对于游离克伦特罗的半抑制率IC50为0.602μg/mL。该噬菌体展示的抗体片段可以用于竞争法检测克伦特罗的含量,其能够检测出的最低浓度为15.6 ng/mL,具有较大的实用价值。     

噬菌体抗体库技术在肿瘤治疗中的研究进展及应用北大核心CSCD

肿瘤是严重威胁人类健康的疾病。目前肿瘤治疗策略以手术切除、放化疗、靶向治疗和免疫治疗为主。单克隆抗体药物因具备高效性和低毒性等特点,逐渐成为肿瘤临床治疗中不可或缺的药物类型。噬菌体抗体库技术(phage antibody library technology,PALT)是一种新型的单克隆抗体制备技术,其将免疫球蛋白可变区VH(variable region of heavy chain)/VL(variable region of light chain)基因重组后整合在噬菌体载体上,并以融合蛋白的形式将抗体表达到噬菌体表面,从而获得多样性抗体库。抗体库经过“吸附-洗脱-扩增”过程即可筛选获得到特异结合抗原的抗体分子及其基因序列。PALT具有抗体生产周期短、抗体结构可塑性强、抗体产量大、多样性高和可直接生产人源化抗体等优点,已应用于乳腺癌、胃癌、肺癌和肝癌等肿瘤标志物的筛选和抗体药物的制备等领域。文中综述了PALT在肿瘤治疗中的研究进展及应用。     

噬菌体展示技术研究进展

噬菌体表面展示技术是一种将外源蛋白或抗体可变区与噬菌体表面特定蛋白质融合并展示于其表面,构建蛋白质或抗体库,并从中筛选特异蛋白质或抗体的基因工程技术。介绍这一技术的原理、相关展示系统以及在蛋白质相互作用的研究,抗体及疫苗的制备、多肽药物的研制等方面的应用潜力和独特的优点。     

人源单克隆抗人免疫缺陷病毒1型抗体Fab段基因的获得

应用噬苏体抗体库技术有效地筛选出了多株抗ＨＩＶ－１人源单克隆抗体。以逆转录聚合酶链反应（ＲＴ－ＰＣＲ）从ＨＩＶ－１感染者外周血淋巴细胞中扩增抗体轻重链可变区基因,插入载体ｐＣＯＭＢ３,建立噬菌体抗体库。分别以ＨＩＶ－１ｇｐ１２０和ｇｐ１６０为固相抗原,经过多轮筛选,从中获得了多株抗ＨＩＶ－１ｇｐ４１、ｇｐ１２０和ｇｐ１６０的单克隆抗体Ｆａｂ段基因。抗ＨＩＶ特异性噬菌体抗体随抗体库的筛选高度富集,抗     

噬菌体表面展示技术

噬菌体表面展示技术是将编码外源肽或抗体的可变区ＤＮＡ 片段插入噬菌体或噬菌粒的基因组中,以融合形式与噬菌体的表面蛋白共同表达于噬菌体表面,经过“吸附———洗脱———扩增”过程筛选并富集外源肽或 特异性抗体。其中噬菌体抗体库技术可以模拟体内抗体产生和成熟过程,不经细胞杂交,甚至不经免疫制备针对任何抗原的单克隆抗体     

Construction of a single-chain variable-fragment antibody against the superantigen Staphylococcal enterotoxin B

Staphylococcal food poisoning (SFP) is one of the most prevalent causes of food-borne illness throughout the world. SFP is caused by 21 different types of staphylococcal enterotoxins produced by Staphylococcus aureus. Among these, staphylococcal enterotoxin B (SEB) is the most potent toxin and is a listed biological warfare (BW) agent. Therefore, development of immunological reagents for detection of SEB is of the utmost importance. High-affinity and specific monoclonal antibodies are being used for detection of SEB, but hybridoma clones tend to lose their antibody-secreting ability over time. This problem can be overcome by the use of recombinant antibodies produced in a bacterial system. In the present investigation, genes from a hybridoma clone encoding monoclonal antibody against SEB were immortalized using antibody phage display technology. A murine phage display library containing single-chain variable-fragment (ScFv) antibody genes was constructed in a pCANTAB 5E phagemid vector. Phage particles displaying ScFv were rescued by reinfection of helper phage followed by four rounds of biopanning for selection of SEB binding ScFv antibody fragments by using phage enzyme-linked immunosorbent assay (ELISA). Soluble SEB-ScFv antibodies were characterized from one of the clones showing high affinity for SEB. The anti-SEB ScFv antibody was highly specific, and its affinity constant was 3.16 nM as determined by surface plasmon resonance (SPR). These results demonstrate that the recombinant antibody constructed by immortalizing the antibody genes from a hybridoma clone is useful for immunodetection of SEB.     

噬菌体抗体库技术在肿瘤抗体药物研究中的进展及应用

目的:综述噬菌体抗体库技术的研究进展,介绍该技术的原理,构建,筛选和应用,为抗肿瘤抗体药物研发提供参考。方法:采用文献综述的方法,筛选近5年来噬菌体抗体库技术试验论文,对噬菌体抗体库技术的原理,构建,筛选和应用进行总结。结果:噬菌体抗体库主要分为免疫抗体库和非免疫抗体库两大类;噬菌体抗体库筛选技术包括亲和筛选、细胞筛选和生物体内筛选三种;噬菌体抗体库技术主要应用于肿瘤标志物的识别和肿瘤诊断,抗肿瘤抗体药物的筛选和制备。结论:噬菌体抗体库技术方便、快速、高效,可以在体外环境下培养,这些特点决定了其在肿瘤标志物的发现和肿瘤抗体药物研发中的广泛应用。目前噬菌体抗体库技术还存在一定缺陷,但技术的不断发展和革新必然使噬菌体抗体库技术成为研制抗体药物的新思路,极大促进了肿瘤抗体药物的研发。     

人源噬菌体抗体库的构建及抗VEGF抗体的初步筛选分析

应用噬菌体表面呈递技术构建人抗体组合文库 .筛选获得了结合血管内皮细胞生长因子( VEGF)的人噬菌体 Fab抗体 ,并对所获抗体的多样性进行了进一步分析 .从不同人群外周血淋巴细胞提取总 RNA,经反转录后采用家族特异性免疫球蛋白可变区基因引物与免疫球蛋白信肽序列引物 ,通过改变 PCR条件或半套式扩增分别获得全部亚型的轻、重链抗体 Fab段 ,并重组到噬粒载体 p Comb3H中 ,经电转化大肠杆菌 XL- 1 Blue,构建了 1 .5× 1 0 8完整组合抗体库 .利用 VEGF12 1对该库经过 4轮固相筛选后 ,获得 1 2个可与 VEGF特异结合的阳性克隆 .酶谱分析表明了所获抗体克隆的多样性 .为通过基因工程改造 ,进一步获得可用于临床的人源 VEGF抗体奠定了基础 .     

人源抗狂犬病毒单克隆抗体Fab段基因的获得和表达

运用噬菌体表面呈现（phage display）技术获得了人源抗狂犬病毒糖蛋白基因工程单克隆抗体Fab段基因及其表达。从狂犬病毒PM株Vero细胞疫苗免疫的人抗凝血中分离获得外周淋巴细胞,提取细胞总RNA,通过RTPCR方法,用一组人IgG Fab基因4特异性引物,从合成的cDNA中扩增了一组轻链和重链Fab段基因,将轻链和重链Fab段基因,将轻链和重链先后克隆入噬菌体载体pComb3,成功地建立了抗狂犬病毒抗原的方法,对此抗体库进行富积筛选表达,成功地获得了抗狂犬病毒的人源单抗Fab段基因及其在大肠杆菌中的有效表达,对其中一株单抗G10进行了较为系统的分析,发现它与一株鼠源中和性狂犬病毒糖蛋白特异性单抗存在竞争,证实该单抗能识别狂犬病毒糖蛋白,其序列资料分析表明,该单抗为一株新的抗狂犬病毒人源基因工程抗体。     

Detection of weakly interacting anti-carbohydrate scFv phages using surface plasmon resonance

Methods to characterise and confirm specificity of scFv displayed on phages are important during panning procedures, especially when selecting for antibody fragments with weak affinities in the millimole to micromole range. In this report the surface plasmon resonance (SPR) biosensor was used to study and verify specificity of phages displaying weak anti-carbohydrate scFvs. The variable immunoglobulin light (VL) and heavy (VH) chain genes of the weak monoclonal antibody 39.5 were amplified and cloned into a phagemid and displayed as a scFv-pIII fusion protein on filamentous phage. This monoclonal antibody recognises with weak affinity the structural sequence Glcalpha1-4Glc present in a variety of carbohydrate molecules. Injection of the 39.5 phages over a biosensor chip immobilised with a (Glc)4-BSA conjugate confirmed selective binding of the scFv to its antigen. Inhibition studies verified the specificity. These results clearly show that SPR technology can be used to evaluate in terms of binding and specificity weakly interacting scFv displayed on the phage surface.     

Identification of peptides that bind to the constant region of a humanized IgG1 monoclonal antibody using phage display

The pFc' fragments of a humanized IgG1 monoclonal antibody were generated by digestion with immobilized pepsin. These pFc' fragments were separated from F(ab')2 fragments by affinity chromatography. The pFc' fragments corresponding to the constant region of the humanized IgG1 monoclonal antibody were used as targets for phage display using variable-length peptide libraries. Interacting phage-displayed peptides were selected by repetitious cycles of target screening and phage amplification. Peptide sequences, deduced by sequencing DNA from isolated phage, were aligned and analyzed for amino acid motifs against each other and protein A. These results indicated that an amino acid motif has been identified using phage display technology that is sufficient for pFc' binding. Furthermore, the peptides derived from this study may prove useful in the development of peptidomimetic alternatives to protein A for use in affinity chromatography.     

Antibody fragments from a ''single pot'' phage display library as immunochemical reagents.

The display of repertoires of antibody fragments on the surface of filamentous bacteriophage offers a new way of making antibodies with predefined binding specificities. Here we explored the use of this technology to make immunochemical reagents to a range of antigens by selection from a repertoire of > 10(8) clones made in vitro from human V gene segments. From the same 'single pot' repertoire, phage were isolated with binding activities to each of 18 antigens, including the intracellular proteins p53, elongation factor EF-1 alpha, immunoglobulin binding protein, rhombotin-2 oncogene protein and sex determining region Y protein. Both phage and scFv fragments secreted from infected bacteria were used as monoclonal and polyclonal reagents in Western blots. Furthermore the monoclonal reagents were used for epitope mapping (a new epitope of p53 was identified) and for staining of cells. This shows that antibody reagents for research can be readily derived from 'single pot' phage display libraries.     

Generation and application of a fluorescein-specific single chain antibody

A recombinant single chain antibody fragment (designated scDE1) of the murine monoclonal anti-fluorescein antibody B13-DE1 was generated using the original hybridoma cells as source for the variable antibody heavy and light chain (VH and VL) genes. After cloning the variable genes into a phage vector a functional antibody fragment was selected by phage display panning. Recombinant antibody could be expressed as phage antibody and as soluble single chain antibody in Escherichia coli. High yield of scDE1 could also be detected in bacterial culture supernatant. The scDE1 showed the same binding specificity as the parental monoclonal antibody, i.e. it bound fluorescein, fluorescein derivatives and a fluorescein peptide mimotope. Surface plasmon resonance revealed a K(D) of 19 nM for the scDE1 compared to 0.7 nM for the monoclonal antibody. The isolated soluble scDE1 could easily be conjugated to horseradish peroxidase which allowed the use of the conjugate as universal indicator for the detection of fluorescein-labelled proteins in different immunoassays. Detection of hCG in urine was performed as a model system using scDE1. In addition to E. coli the scFv genes could also be transferred and expressed in eukaryotic cells. Finally, we generated HEK293 cells expressing the scDE1 at the cell surface.