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 .     

通过构建轻链二级库对人源抗TNF-α抗体进行亲和力成熟

通过构建轻链二级库的方法,对人源抗ＴＮＦ－α单抗Ｆａｂ进行轻链置换,并筛选出具有更高亲和力的人源抗ＴＮＦ－α单抗的Ｆａｂ。首先用ＲＴ－ＰＣＲ技术扩增正常人全套抗体轻链基因,并与已获得的人源抗ＴＮＦ－α单抗的重链基因配对,构建人源抗ＴＮＦ－α噬菌体抗体轻链二级库,然后筛选与ＴＮＦ－α具有更高亲和力的克隆,经过三轮的生物淘筛（ｂｉｏｐａｎｎｉｎｇ）,获得了比原来的人源抗ＴＮＦ－α单抗Ｆａｂ具有更高亲和     

抗鳗弧菌独特型单克隆抗体dsFv的构建及其噬菌体表面呈现

抗鳗弧菌独特型单克隆抗体 1E10是能够模拟鳗弧菌的保护性表位 ,可以作为疫苗使用的一种单克隆抗体 .利用基因工程抗体技术从抗鳗弧菌独特型单克隆抗体杂交瘤细胞株 1E10中克隆出抗体的重链及轻链可变区基因 (VH 和VL) .通过定点突变技术将VH4 4和VL10 5突变为半胱氨酸并且连接到噬菌体表达载体pCANTAB5E中 ,突变后的VH 和VL 基因位于cpⅢ先导序列和cpⅢ基因之间 ,在LacZ启动子调控之下 ,以融合蛋白的形式被导入细胞间隙 ,依靠链间二硫键组装成二硫键稳定型Fv抗体 (dsFv) .加入辅助噬菌体M13K0 7后 ,dsFv以融合蛋白的形式表达在噬菌体表面 .ELISA测定显示 :dsFv噬菌体能够与抗原结合并且这种结合呈噬菌体浓度依赖 .结果表明 :成功构建出了抗鳗弧菌独特型单克隆抗体dsFv基因并使其在噬菌体表面获得了正确呈现 .该dsFv噬菌体有望成为新一代基因工程疫苗用于预防鱼类鳗弧菌感染     

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     

人抗E．Coli J5噬菌体抗体制备的初步研究

以E．Coli J5株对合人Ig基因的噬菌体抗体库进行淘筛富集,免疫印迹筛选,以及ELISA检测,结果获得4株能与E．Coli J5株结合的阳性克隆,且阳性克隆结合抗原的活性可分别被E．Coli J5株、E．Coli Rc-LPS和抗E．Coli J5株核心糖脂域MAb抑制．PCR检测表明,4株阳性克隆均分别带有约660bp大小的重链和轻链基因片段．SDS－PAGE与蛋白质印迹的结果显示,经IPTG诱导的阳性克隆能表达分子量约为50000大小的蛋白,提示该4株阳性克隆能够表达具有一定抗原结合活性的人源Fab片段．     

人源性抗HBsAg抗体Fab段在酵母中的表达

通过分步整合的方式,将人源性抗乙肝表面抗原（HBsAg）抗体Fab的轻、重链基因分步整合到巴斯德毕赤（Pichia pastoris）酵母GS115菌株的染色体上,经甲醇诱导,成功地分泌表达出抗HBsAg抗体的Fab片段,表达量达50～80mg/L。ELISA结果显示重组酵母分泌表达出的Fab具有较强的结合HBsAg的能力。通过抗Fab的抗体柱亲和层析,纯化出了纯度较高的Fab产品。     

抗破伤风类毒素单抗可变区基因的克隆及在大肠杆菌中表达的三种工程抗体

我们采用RT-PCR,从小鼠杂交瘤细胞中扩增并克隆了抗破伤风类毒素(TT)抗体轻、重链可变区,重链Fd区基因,测定了其VH、Vk序列。并在大肠杆菌中表达了Fd片段,ELISA分析的结果表明Fd片段具有抗原结合的能力,但特异性很差。进一步采用SOE,和PCR技术,将VH、VK基因与ScFv连接片段组装成单链抗体(ScFv)基因片段,以及将人重链CH1和Fab基因连接片段组装成Fab基因片段。将它们分别插入含噬菌体fd外壳蛋白3基因的phagem-id pHEN 1中,在辅助噬菌体M 13-VCS作用下,噬菌体表面表达了抗TT的噬菌体单链抗体(phage-ScFv)与噬菌体Fab(phage-Fab),经ELISA检测,表明它们都能与TT特异结合。     

Construction of a human scFv antibody library with VH regions randomized and its application

A non-immunized human single chain variable fragment (scFv) library containing 2.5 × 10(7) individual clones was constructed from antibody variable region genes of 200 non-immunized donors. ScFv gene repertories were generated by randomly combining rearranged variable regions of heavy chain (VH) and natural occurring light chain (VL) using overlapping extension PCR (OE-PCR). Five recombinant protein antigens from different species were successfully used to select specific binders. Phage ELISA showed that the recombinant phage particle could specifically bind to non-structural protein 1 of Avian influenza virus. This method can therefore efficiently generate a phage antibody library.     

抗破伤风类毒素单抗可变区基因的克隆及在大肠杆菌中表达的三种工程抗体

The heavy and light chain variable region genes of anti-tetanus toxoid (TT) antibody and the heavy chain Fd genes were amplified and cloned through RT-PCR from mouse hybridoma cells. The sequences of VH and VK were determined. Fd gene fragments were expressed in E. coli. The ELISA results indicated that the expressed Fd showed antigen binding activity but was nonspecific. Furthermore, through SOE and PCR techniques, the VH and VK gene fragments together with ScFv linker were assembled into single chain antibody (ScFv) gene fragment. While together with human heavy chain CH 1 gene fragment and Fab linker, they were assembled into chimeric Fab gene fragment. The two assembled gene fragments were separately inserted into phagemid pHEN 1, which was a fd-based vector containing gene 3 encoding the minor coat protein. In presence of helper phage M 13-VCS the anti-TT phage-ScFv or phage-Fab were displayed on the surface of phage particles respectively. Results from phage-ELISA indicated that both phage antibodies were TT-specific.     

噬菌体呈现技术制备结肠癌抗独特型抗体

 以纯化的鼠抗人结肠癌细胞单克隆抗体 (简称单抗 )MC5与钥孔血蓝素 (KLH)的交联物经腹腔免疫Balb c小鼠 ,取脾分离mRNA .RT PCR分别扩增抗体重、轻链可变区基因片段 (VH 和VLcD NA ,大小分别约为 340bp和 32 0bp) ,二者经linkerDNA连接形成ScFv(singlechainvariablefragment)DNA(约 75 0bp) .将ScFvDNA与噬菌粒载体pCANTAB5E的连接产物转化于大肠杆菌TG1,经辅助噬菌体M13KO7感染后 ,获得重组噬菌体抗体ScFv文库 .以单抗MC5对ScFv文库进行 4轮亲和筛选后 ,随机挑取 80个克隆经酶联免疫吸附实验 (ELISA)筛选出 2 2个呈现ScFv形式抗独特型抗体(抗 IdScFv)的噬菌体单克隆 .竞争抑制实验表明 ,在 2 2个阳性克隆中有 4个克隆所呈现的抗 IdScFv属β或γ型 .针对单抗MC5的噬菌体呈现型抗 IdScFv的制备 ,为筛选新的结肠癌重组抗 Id瘤苗候选分子奠定了基础     

抗乙型肝炎病毒表面抗原T7噬菌体抗体库的构建

构建T7噬菌体单链抗体(scFv)库筛选抗乙型肝炎病毒表面抗原抗体.从抗-HBs阳性患者外周血淋巴细胞中提取总RNA,反转录合成cDNA第1条链,PCR分别扩增抗体重链可变区基因(VH)和轻链可变区基因(VL),经重叠延伸拼接(SOE)PCR组成scFv基因,并将其与T7噬菌体载体的2个臂相连接.体外包装后,在宿主菌BLT5403中,扩增重组噬菌体抗体库.以乙型肝炎病毒表面抗原进行4轮“吸附-洗脱-扩增”的筛选,酶免疫实验检测抗体活性.所建抗体库库容为1.53×107,扩增后初级库滴度为2.42×1010pfu/mL.以乙型肝炎病毒表面抗原筛选后抗体出现特异性富集,经酶免疫实验鉴定,得到2株与HBsAg抗原特异结合的噬菌体抗体,成功构建了抗HBsAg蛋白T7噬菌体抗体库.     

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。     

噬菌体抗体库的构建及抗乳腺癌细胞单链抗体的筛选

构建抗人乳腺癌细胞MCF 7的噬菌体单链抗体库 ,从中筛选MCF 7细胞特异性单链抗体。用MCF-7细胞免疫BALB C小鼠 ,取脾脏 ,提取总RNA ,用RT-PCR技术扩增小鼠抗体重链 (V_H)和轻链 (V_L)可变区基因 ,经重叠PCR(SOE-PCR) ,在体外将V_H和V_{L连接成单链抗体 (scFv)基因 ,并克隆到噬菌粒载体pCANTAB5E中 ,电转化至大肠杆菌TG1,经辅助噬菌体超感染 ,构建噬菌体单链抗体库。从该抗体库中筛选特异性识别MCF-7细胞的噬菌体单链抗体 ,将表面展示单链抗体的单克隆噬菌体转化大肠杆菌TOP10进行可溶性表达。成功地构建了库容为12×10⁶ 的抗MCF-7乳腺癌细胞的单链抗体库 ,初步筛选到了与MCF 7细胞特异性结合的scFv,Westernblot检测表明 ,在大肠杆菌TOP10中实现了单链抗体可溶性表达}     

Neutralizing chimeric mouse-human antibodies against Burkholderia pseudomallei protease: expression, purification and characterization

A recombinant Fab monoclonal antibody (Fab) C37, previously obtained by phage display and biopanning of a random antibody fragment library against Burkholderia pseudomallei protease, was expressed in different strains of Escherichia coli. E. coli strain HB2151 was deemed a more suitable host for Fab expression than other E. coli strains when grown in media supplemented with 0.2 % glycerol. The expressed Fab fragment was purified by affinity chromatography on a Protein G-Sepharose column, and the specificity of the recombinant Fab C37 towards B. pseudomallei protease was proven by Western blotting, enzyme-linked immunosorbent assay (ELISA) and by proteolytic activity neutralization. In addition, polyclonal antibodies against B. pseudomallei protease were produced in rabbits immunized with the protease. These were isolated from high titer serum by affinity chromatography on recombinant-Protein A-Sepharose. Purified polyclonal antibody specificity towards B. pseudomallei protease was proven by Western blotting and ELISA.     

Guided selection of an anti-gamma-seminoprotein human Fab for antibody directed enzyme prodrug therapy of prostate cancer

Background The HAMA response is a major challenge when murine antibodies are repeatedly administered for antibody directed enzyme prodrug therapy in vivo. In this study we have achieved humanization of the anti-γ-seminoprotein E₄B₇ murine mAb by guided selection. Methods Using optimal Ig Fab primers, human Fd and CL gene repertoires were amplified by RT-PCR from PBMCs of prostate cancer patients. The human Lc gene repertoire was first paired with the murine Fd gene of E₄B₇ mAb to construct a pComb3X hybrid Fab display library. This hybrid library was screened with purified γ-seminoprotein antigen. The human Fd gene repertoire was then paired with the selected human Lc to construct a fully human Fab library. After four more rounds of panning, completely human Fab antibodies specific for γ-seminoprotein were selected and further identified. Results First, using the E₄B₇ Fd gene as a template, light chain shuffling was achieved by panning the hybrid library. Then, using the selected Lc as a template, a human Fab antibody against γ-seminoprotein was produced through heavy chain Fd shuffling. Western blotting, ELISA, and flow cytometry results demonstrated that the resulting human Fab antibody resembled the parental E₄B₇ mAb in that they both recognized the same epitope with similar affinities. Fluorescent cell staining and immunohistochemistry analysis further confirmed that this newly constructed human anti-γ-seminoprotein Fab antibody indeed specifically bound prostate cancer cells and tissue. Conclusions Through guided-selection, we successfully produced a human anti-γ-seminoprotein Fab antibody. This work lays the foundation for optimal antibody-directed enzyme prodrug therapy of prostate cancer using a fully human Fab antibody. Zhang Qing and Zhang Si-He are co-first authors on the publication.     

鼠源性抗雄性特异性抗原噬菌体Fab抗体的制备及分析

利用噬菌体抗体库筛选技术获得抗雄性特异性抗原的噬菌体Fab抗体,首次采用雄鼠脾细胞对鼠源性抗雄性特异性抗原噬菌体Fab抗体库进行3轮亲和富集和2轮雌鼠脾细胞吸附,对筛选后特异性噬菌体Fab抗体进行ELISA分析,重组率鉴定及基因测序分析。结果显示,5次筛选后的15个菌落中有9个能产生抗雄性特异性抗原特异性噬菌体抗体,噬菌体Fab抗体的基因重组率为60%,E5克隆的重链、轻链可变区序列分别属于VH1和VκⅣ基因家族,这为挑选出高亲和力的抗雄性特异性抗原噬菌体Fab抗体奠定了实验基础,将推进雄性特异性抗原及其抗体的研究进程,并为性别控制研究开创新途径。     

Ex12 helper phage improves the quality of a phage-displayed antibody library by ameliorating the adverse effect of clonal variations

The quality of a phage-displayed antibody library deteriorates with clonal variations, which are caused by differentially expressed Escherichia coli antibody genes. Using the human Fab SP114 against the pyruvate dehydrogenase complex-E2 (PDCE2), we created four E. coli TOP10F' clones with a pCMTG phagemid encoding Fab-pIII (pCMTG-Fab), Fd (V(H)+C(H1))-pIII (pCMTG-Fd), or light chain (L) (pCMTG-L), or the vector only (pCMTG-?Fab) to investigate the effect of clonal variations in a defined manner. Compared to the others, the E. coli clone with pCMTG-Fab was growth retarded in liquid culture, but efficiently produced phage progenies by Ex12 helper phage superinfection. Our results suggest that an antibody library must be cultured for a short duration before helper phage superinfection, and that the Ex12 helper phage helped to alleviate the detrimental effect of clonal variation, at least in part, by preferentially increasing functional phage antibodies during phage amplification.     

血清学检测H-Y噬菌体Fab抗体阳性克隆的分析

目的 为分析H-Y噬菌体Fab抗体特异性,筛选用于抗体亲和力提高的H-Y噬菌体Fab抗体阳性克隆.方法 以从噬菌体Fab抗体库中筛选到具有雄性特异性结合活性的阳性克隆A6、A8、E6为基础,通过C57BL/6鼠脾细胞为抗原的ELISA分析3株阳性克隆的特异性,镜下观察亲和力较好的A8阳性克隆ELISA结果,利用生物信息学方法预测分析该克隆的抗体基因可变区序列和结构.结果 ELISA分析显示3株阳性克隆具有雄性特异性,其中A8阳性克隆具备较好的雄性特异性.A8克隆具有免疫球蛋白轻链和重链可变区结构,其重链、轻链可变区分别属于VHI和VκIV基因家族.结论 A8阳性克隆可用于后续的导向筛选和抗体基因改造等研究工作.