脑膜炎大肠杆菌IbeA蛋白结合肽序列的亲和筛选

应用噬菌体展示肽库技术,以重组的脑膜炎大肠杆菌致病蛋白IbeA作为靶分子,经过吸附-洗脱-扩增-再吸附的亲和筛选,随机挑选亲和力强的噬菌体克隆,进行ELISA、竞争抑制实验和序列测定。结果显示,经3轮淘选后,间接ELISA鉴定得到高亲和性结合IbeA蛋白的15个阳性克隆。竞争抑制实验结果表明,游离IbeA蛋白能竞争抑制噬菌体结合肽克隆与固相包被的IbeA蛋白的结合,其抑制作用随游离IbeA蛋白浓度的降低而减弱。测序结果得到5种阳性噬菌体克隆展示肽序列。上述结果提示以脑膜炎大肠杆菌IbeA蛋白为靶筛选所获得的噬菌体12肽克隆,具有特异性,其结合肽序列呈现相对保守性。建立的从噬菌体随机肽库筛选IbeA蛋白结合肽的方法具有方便、灵活和高效可行的特点。     

利用噬菌体随机肽库筛选可结合猪繁殖与呼吸综合症病毒的多肽序列

【目的】采用完整的猪繁殖与呼吸综合症病毒(Porcine Reproductive and Respiratory Syndrome Virus,PRRSV)颗粒筛选噬菌体肽库,以获得能高亲和力结合并能抑制该病毒复制的特异性多肽。【方法】用纯化的病毒粒子包被ELISA板,再用M13噬菌体随机12肽库进行筛选。经过3轮淘筛,ELISA鉴定噬菌体单克隆与PRRSV的亲和力,选取与PRRSV具有高亲和力的噬菌体单克隆进行DNA测序,据此推导多肽的氨基酸序列。通过TCID50检测其抗病毒复制能力,同时人工合成FITC标记的展示肽用于PRRSV的检测。【结果】经筛选和鉴定得到17个阳性噬菌体克隆能与PRRSV呈高亲和力结合,DNA测序发现各克隆之间有部分共有基序,其中2个克隆体外能明显抑制PRRSV的复制,使TCID50由10-7.3/0.1mL分别降至10-3.2、10-3.6/0.1mL,而FITC标记该展示肽能够在5mg/L工作浓度检测PRRSV。【结论】通过噬菌体肽库能够筛选到具有抗病毒作用的阳性噬菌体克隆,为进一步开发高效PRRSV的诊断和治疗试剂奠定基础。     

噬菌体肽库筛选抗人B7-H4中和抗体的模拟抗原表位及其免疫原性鉴定

目的:用噬菌体呈现随机12肽库筛选能与抗人B7-H4(h B7-H4)中和抗体特异性结合的模拟抗原表位肽,并用其免疫小鼠检测其免疫原性。方法:以抗h B7-H4中和抗体为靶分子,用体外生物淘洗法从噬菌体呈现随机12肽库中筛选与之结合的噬菌体克隆,用竞争性细胞ELISA鉴定阳性噬菌体克隆;化学合成候选多肽,并与钥孔血蓝蛋白或破伤风毒素偶联鉴定多肽的特异性;进一步用融合蛋白免疫小鼠检测其免疫原性和抗血清的补体依赖的细胞杀伤活性(CDC)。结果:经过3轮体外筛选后随机挑取50个阳性噬菌体克隆,其中20个克隆与抗h B7-H4抗体有较强的结合能力,DNA测序得到6组结构相似的肽序列;竞争性ELISA结果显示1号肽噬菌体能与细胞表面的h B7-H4竞争性地结合抗h B7-H4单抗;点杂交结果显示1号肽能特异性结合抗h B7-H4单抗;小鼠免疫实验结果显示1号肽融合蛋白能诱导高滴度的抗h B7-H4抗血清,并且抗血清具有补体依赖的细胞杀伤活性。结论:筛选得到能与抗h B7-H4中和抗体特异性结合的12肽模拟抗原表位序列并且具有免疫原性,为进一步开发h B7-H4相关的多肽疫苗提供了实验依据。     

抗人白细胞介素15中和抗体识别抗原表位的噬菌体肽库筛选与鉴定

目的:用噬菌体呈现随机七肽库筛选能与抗人白细胞介素15(h IL-15)中和抗体特异性结合的模拟抗原表位肽,并初步鉴定其免疫原性。方法:以抗h IL-15中和抗体为靶分子,用生物淘洗法从噬菌体呈现线性七肽库中筛选与之结合的噬菌体克隆,用噬菌体ELISA和竞争抑制ELISA鉴定阳性噬菌体克隆;化学合成筛选得到的多肽,并与匙孔血蓝蛋白(KLH)偶联免疫BALB/c小鼠,检测其免疫原性。结果:经过3轮体外筛选后随机挑取50个阳性噬菌体克隆,ELISA检测结果显示其中15个克隆与抗h IL-15抗体有较强的结合能力,DNA测序结果得到的结构相似群为MTPFWQK、MSPFNQK、MIPYWQK和MIPFHQK;竞争性ELISA结果显示4个序列均能与IL-15竞争性地结合抗IL-15单抗;小鼠免疫实验结果显示4组多肽均能诱导IL-15特异性免疫反应。结论:筛选得到能与抗h IL-15中和抗体特异性结合,且具有免疫原性的模拟抗原7肽序列,为进一步开发h IL-15相关的多肽疫苗提供了依据。     

脓毒症单核巨噬细胞特异性结合肽的筛选

利用噬菌体随机肽库展示技术,筛选出与脓毒症单核/巨噬细胞特异性结合的短肽,探索脓毒症治疗的新方法.分别以经过脂多糖(lipopolysaccharide, LPS)处理的人外周血单核细胞株(THP-1)细胞作为筛选的靶细胞,以未经LPS处理的THP-1细胞作为非特异性噬菌体吸附细胞,对噬菌体随机环七肽库进行4轮“差减"筛选,经过细胞ELISA验证阳性噬菌体克隆,对获得的阳性克隆进行DNA测序及生物信息学分析,并进一步利用免疫荧光实验,鉴定噬菌体克隆与LPS处理THP-1细胞的结合特异性.4轮筛选后,随机挑取的噬菌体克隆,测序后得到可与LPS处理的THP-1细胞特异性结合肽.对去冗余后的七肽进行Clustal W多序列比对分析和BlastP蛋白同源相似性分析,细胞免疫荧光检测确定获得的噬菌体展示七肽可与LPS处理的THP-1细胞特异性结合.噬菌体随机肽库技术为脓毒症单核/巨噬细胞表面靶位的筛选提供了高效、快捷的筛选体系,实验获得的多肽基序具有高度保守性和细胞特异性,这些多肽的生物活性将是下一步的研究内容.     

血管内皮细胞生长因子受体Flt-1结合小肽的融合表达及活性鉴定

血管内皮细胞生长因子 (VEGF)通过结合其酪氨酸激酶受体KDR、fms样酪氨酸激酶 1(Flt 1)调节新生血管形成 ;筛选能封闭VEGF结合Flt 1的小肽 ,可以通过阻断肿瘤血管形成 ,抑制实体瘤生长 .将从噬菌体 12肽库中筛选获得的 2个能与Flt 1结合的阳性噬菌体克隆 (F5 6和F90 )十二肽DNA(36bp)克隆到表达载体pQE4 2中 ,在大肠杆菌M15中稳定表达二氢叶酸还原酶融合蛋白(DHFR F5 6 F90 ) ,经变性、复性后得到纯度达 90 %的可溶性蛋白 .ELISA检测表明 ,DHFR F5 6 F90能结合可溶性受体sFlt 1和血管内皮细胞 ;12 5I VEGF竞争抑制实验显示 ,DHFR F5 6能竞争抑制VEGF同可溶性受体sFlt 1结合 .结果提示 ,F5 6可能是VEGF受体Flt 1的有效拮抗剂 ,具有抗肿瘤新生血管形成的潜在应用前景     

脂多糖保守表位模拟肽的筛选与鉴定

用针对脂多糖保守表位的单抗2B4对噬菌体随机12肽库进行亲和筛选,通过噬菌体ELISA实验及脂多糖(LPS)竞争抑制实验鉴定阳性克隆.经三轮筛选后,与抗体结合的噬菌体得到明显富集,噬菌体ELISA结果显示,阳性率达80%.将其中12个阳性噬菌体克隆做鼠伤寒杆菌和大肠杆菌LPS竞争抑制实验,抑制作用非常明显,有良好的剂量依赖关系,证明这12个克隆与LPS具相似表位.DNA测序并推导噬菌体展示肽的氨基酸序列为,GPPQWFFSQPQL（5/12,41.7%）,LPQYFWNTATTA（3/12,25%）,FPQNHWNVPWAT（2/12,16.6%）,HSQSFWNAPLAM和AHPWTHGYFPPL（1/12,8.3%）.实验结果表明,用2B4抗体筛选到的噬菌体短肽克隆可模拟保守表位,即脂多糖的模拟肽（位）.     

脑膜炎大肠杆菌IbeA蛋白结合肽序列的亲和筛选*

应用噬菌体展示肽库技术,以重组的脑膜炎大肠杆菌致病蛋白IbeA作为靶分子,经过吸附-洗脱-扩增-再吸附的亲和筛选,随机挑选亲和力强的噬菌体克隆,进行ELISA、竞争抑制实验和序列测定。结果显示,经3轮淘选后,间接ELISA鉴定得到高亲和性结合IbeA蛋白的15个阳性克隆。竞争抑制实验结果表明,游离IbeA蛋白能竞争抑制噬菌体结合肽克隆与固相包被的IbeA蛋白的结合,其抑制作用随游离IbeA蛋白浓度的降低而减弱。测序结果得到5种阳性噬菌体克隆展示肽序列。上述结果提示以脑膜炎大肠杆菌IbeA蛋白为靶筛选所获得     

脂多糖保守表位模拟肽的筛选与鉴定

用针对脂多糖保守表位的单抗2B4对噬菌体随机12肽库进行亲和筛选,通过噬菌体ELISA实验及脂多糖(LPS)竞争抑制实验鉴定阳性克隆.经三轮筛选后,与抗体结合的噬菌体得到明显富集,噬菌体ELISA结果显示,阳性率达80%.将其中12个阳性噬菌体克隆做鼠伤寒杆菌和大肠杆菌LPS竞争抑制实验,抑制作用非常明显,有良好的剂量依赖关系,证明这12个克隆与LPS具相似表位.DNA测序并推导噬菌体展示肽的氨基酸序列为,GPPQWFFSQPQL（5/12,41.7%）,LPQYFWNTATTA （3/12,25%）,FPQNHWNVPWAT（2/12,16.6%）,HSQSFWNAPLAM和AHPWTHGYFPPL（1/12,8.3%）.实验结果表明,用2B4抗体筛选到的噬菌体短肽克隆可模拟保守表位,即脂多糖的模拟肽（位）.     

从噬菌体表面展示肽库中筛选志贺毒素受体结合抑制剂

利用抗体捕获法 ,从表面展示随机肽序列的噬菌体文库中筛选到与志贺毒素B亚基 (StxB)结合 ,并能抑制志贺毒素细胞毒效应的噬菌体克隆 ;依据其中 1个克隆序列 (A12 )合成的肽可以与志贺毒素的受体Gb3竞争结合StxB ,并抑制志贺毒素(Stx)的细胞毒和肠毒活性 ;抑制 5×CD₅₀ 剂量的Stx细胞毒效应需 2 2 .7μmol的A12合成肽 .筛选得到的 2个噬菌体克隆 (A3 ,A12 )编码的氨基酸序列不同 ,但能竞争结合StxB ,推测它们形成相同或相似的空间结构 .为志贺毒素抑制剂进一步研究打下基础 ,对其他相关药物的研制亦有参考价值 .     

从抗TNF抗体的CDR肽库中获得拮抗TNF的短肽

为设计来自抗体的短肽 ,以抗肿瘤坏死因子 (TNF)嵌合抗体 (cA2 )CDRs为模板 ,在其两侧各加 3个随机氨基酸残基 ( X3 CDR X3 ) ,构建了 6个以CDR为基础的肽库 .经过 3轮亲和选择 ,挑取单克隆 ,进一步经ELISA检测TNF阳性噬菌体克隆 ,分离得到 7个ELISA阳性较好的噬菌体肽克隆 ,分别命名为CDR2L1、CDR2L2、CDR2L3、CDR1L1、CDR2H1、CDR3H1、CDR3H 2 .应用MTT方法 ,检测 7个克隆对TNF生物学活性的拮抗作用 .结果显示 :来自CDR2L ,CDR3H肽库中的CDR2L2、CDR2L3,CDR3H2噬菌体肽具有明显的拮抗TNF诱导L92 9细胞的细胞毒作用 ,其中以CDR2L2噬菌体肽的拮抗活性最强 .而来源于CDR1L ,CDR2H肽库的CDR1L1和CDR2H1噬菌体肽和来自CDR2L ,CDR3H肽库中的CDR2L1和CDR3H1噬菌体肽没有明显的拮抗TNF作用 .研究结果初步表明 :从cA2抗体CDR肽库中筛选得到的噬菌体CDR模拟肽具有亲本抗体相似的结合活性和生物学效应 ,从而为开发已知抗体 (特别是治疗用抗体 )CDR为基础的肽药物创建一个技术平台奠定基础     

Identification of peptide mimotopes for the fluorescein hapten binding of monoclonal antibody B13‐DE1

Using 6mer and 12mer phage peptide libraries three unique phage clones were identified which specifically bind to a monoclonal anti‐FITC antibody, B13‐DE1. The two 6mer and one 12mer peptide insert sequences are clearly related to each other and contain a high proportion of hydrophobic amino acids. The peptides are bound by the antibody combining site of B13‐DE1 probably in a similar manner to FITC and represent therefore true peptidic mimics of the fluorescein hapten. No reactivity of the peptides could be demonstrated with another monoclonal anti‐fluorescein antibody or with polyclonal anti‐fluorescein antibodies. Immunization of mice with the peptides resulted in the production of antibodies cross‐reacting with all peptides but not with fluorescein. The results show that phage peptide libraries can be used to isolate mimotope peptides which can mimic low molecular weight structures seen by a specific antibody and probably other recognition molecules. Copyright © 1999 John Wiley & Sons, Ltd.     

New approach to synthesis of peptide immunomimetic of benzo[a]pyrene

A novel approach to discovery of the peptide with an internal immunological image of carcinogen is suggested in this work. The hybridomas producing monoclonal antibodies (mAb) B2 against benzo[a]pyrene and benz[a]antracene were prepared. Polyclonal Ab against benzo[a]pyrene (Bp) and benz[a]antracene (Ba), antracene, chrysene, and pyrene were also prepared. We identified the related peptide-presenting phage specificity binding to mAT B2 and polyclonal Ab against Bp from 12 large random peptide libraries using phage display method. ICR mice were immunized with specific binding of positive phage clone for studying its immunogenicity. The Bp antibodies were found in the blood serum. All positive phage clones carried the sequence. Thus, the unique peptide with an internal immunological image of Bp may be the new candidate for anticarcinogenic vaccine.     

Mimicking the germinal center reaction in hybridoma cells to isolate temperature-selective anti-PEG antibodies

Modification of antibody class and binding properties typically requires cloning of antibody genes, antibody library construction, phage or yeast display and recombinant antibody expression. Here, we describe an alternative “cloning-free” approach to generate antibodies with altered antigen-binding and heavy chain isotype by mimicking the germinal center reaction in antibody-secreting hybridoma cells. This was accomplished by lentiviral transduction and controllable expression of activation-induced cytidine deaminase (AID) to generate somatic hypermutation and class switch recombination in antibody genes coupled with high-throughput fluorescence-activated cell sorting (FACS) of hybridoma cells to detect altered antibody binding properties. Starting from a single established hybridoma clone, we isolated mutated antibodies that bind to a low-temperature structure of polyethylene glycol (PEG), a polymer widely used in nanotechnology, biotechnology and pharmaceuticals. FACS of AID-infected hybridoma cells also facilitated rapid identification of class switched variants of monoclonal IgM to monoclonal IgG. Mimicking the germinal center reaction in hybridoma cells may offer a general method to identify and isolate antibodies with altered binding properties and class-switched heavy chains without the need to carry out DNA library construction, antibody engineering and recombinant protein expression.     

Mimicking the germinal center reaction in hybridoma cells to isolate temperature-selective anti-PEG antibodies

Modification of antibody class and binding properties typically requires cloning of antibody genes, antibody library construction, phage or yeast display and recombinant antibody expression. Here, we describe an alternative “cloning-free” approach to generate antibodies with altered antigen-binding and heavy chain isotype by mimicking the germinal center reaction in antibody-secreting hybridoma cells. This was accomplished by lentiviral transduction and controllable expression of activation-induced cytidine deaminase (AID) to generate somatic hypermutation and class switch recombination in antibody genes coupled with high-throughput fluorescence-activated cell sorting (FACS) of hybridoma cells to detect altered antibody binding properties. Starting from a single established hybridoma clone, we isolated mutated antibodies that bind to a low-temperature structure of polyethylene glycol (PEG), a polymer widely used in nanotechnology, biotechnology and pharmaceuticals. FACS of AID-infected hybridoma cells also facilitated rapid identification of class switched variants of monoclonal IgM to monoclonal IgG. Mimicking the germinal center reaction in hybridoma cells may offer a general method to identify and isolate antibodies with altered binding properties and class-switched heavy chains without the need to carry out DNA library construction, antibody engineering and recombinant protein expression.     

噬菌体随机肽库筛选抗志贺样毒素Ⅱ结合亚单位Stx2B的单抗的识别表位

目的利用噬菌体随机肽库技术筛选志贺样毒素Ⅱ结合亚单位Stx2B的单抗的识别表位。方法以抗志贺样毒素Ⅱ结合亚单位Stx2B的单克隆抗体筛选噬菌体随机12肽库,挑取阳性克隆测定DNA序列,推导其氨基酸序列并进行同源性分析。通过ELISA鉴定获得的噬菌体短肽与单抗之间的结合特性。结果从噬菌体随机12肽库中筛选出20株可与抗志贺样毒素Ⅱ结合亚单位Stx2B的单抗特异结合的噬菌体克隆,其中多数克隆呈现核心序列WTSRW（Q）,该序列与志贺样毒素Ⅱ结合亚单位Stx2B的一级序列具有一定的同源性。结论WTSRW（Q）序列是志贺样毒素Ⅱ结合亚单位Stx2B单抗的识别表位。     

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.