鉴定单克隆抗体识别蛋白质抗原表位方法的建立

为了建立鉴定治疗性单克隆抗体识别蛋白质抗原表位的方法,选择程序死亡受体-1 (PD-1) 作为目的蛋白。基于丙氨酸扫描策略,建立了定点突变技术和哺乳动物细胞表达系统相结合的抗原突变体快速表达方法,确定了真核表达元件扩增和细胞转染表达的条件。共表达了150个PD-1蛋白突变体,鉴定了这些突变体与抗PD-1抗体帕博利珠单抗的结合能力。根据蛋白突变体与抗体的结合力并结合蛋白结构分析确定了帕博利珠单抗的抗原表位,与已报道的基于晶体结构的抗原表位高度一致,表明本方法操作简单、准确性高,可用于治疗性单克隆抗体的抗原表位作图。     

HIV-1辅助蛋白Vpr多肽抗体的制备与鉴定

预测Vpr蛋白的B细胞抗原表位,并利用合成的B细胞表位肽制备Vpr特异性抗体。应用生物信息学技术获得Vpr蛋白共享氨基酸序列并预测其潜在B细胞抗原表位,与载体蛋白血蓝蛋白(KLH)偶联合成多肽并免疫家兔,鉴定及纯化获得的多肽特异性抗体。软件预测显示,Vpr蛋白N端的第3～19位(N)和C端的第82～95位(C)氨基酸序列为潜在B细胞抗原表位;ELISA检测抗血清中多肽特异性抗体的效价都达到1:105以上;Western-Blotting结果显示,无论对HIV-1B亚型还是CRF07_BC重组型的Vpr蛋白,其多肽N抗体和C抗体均能特异性识别;免疫沉淀结果显示,Vpr多肽N和C抗体也能特异性结合未变性的野生型Vpr或GFP-Vpr融合蛋白。利用生物信息学技术能成功预测Vpr蛋白B细胞抗原表位,免疫所获得的抗体具有较好的特异性和应用性。     

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。     

噬菌体展示随机十肽库的构建及抗WSSV单链抗体A1的模拟抗原表位的淘选和鉴定

本实验以pCANTAB5E噬菌粒为载体,成功构建了较高容量的噬菌体展示随机十肽库,并将其应用于抗原模拟表位的淘选和鉴定。将一种特异识别对虾白斑综合症病毒(Whitespotsyndromevirus,WSSV)的单链抗体A1对十肽库和十五肽库分别进行淘选,结果得到一系列能与单链抗体A1特异性结合的阳性克隆。将这些阳性克隆所编码的多肽氨基酸序列与已知的单链抗体A1的抗原WSSV388片段氨基酸序列做比对,发现多数阳性多肽序列都与WSSV388片段序列的C端一处K????R??R?QS的氨基酸片段相似,由此推论单链抗体A1的模拟抗原表位可能是由该不连续氨基酸片段所构成的构象表位,而非线性表位。研究结果表明,噬菌体展示随机肽库技术是一种用于研究抗原表位结构的有效方法,有助于进一步探讨WSSV的结构蛋白的构象及功能,以及相应单链抗体与细胞受体相互作用的机理。     

猪瘟病毒囊膜糖蛋白E2中和表位的定位及其免疫反应性分析

猪瘟病毒(CSFV)囊膜结构糖蛋白E2(gp55)是激发保护性免疫应答的主要抗原蛋白。E^ms和E2与细胞表面受体的相互作用介导病毒对细胞的感染过程。采用抗CSFV中和性单克隆抗体c24／10,淘选噬菌体展示的12肽随机肽库,结合噬菌体拟位免疫反应性分析结果,对CSFV E2蛋白中和表位进行定位。结果表明：F2蛋白的SPTTLR基序(832～837位氨基酸)构成CSFV特异性线性中和表位,基序的第一、二、三位氨基酸是表位与单克隆抗体c24／10结合所必需的氨基酸,也是表位的关键性氨基酸。     

猪瘟病毒糖蛋白E^rns中和表位的鉴定和比较

猪瘟病毒 (CSFV)囊膜结构糖蛋白Erns(gp4 8)是诱导机体产生中和抗体及激发保护性免疫应答的第二抗原蛋白。E2和Erns与细胞表面受体的相互作用介导CSFV感染细胞的过程。Erns具有RNA酶活性 ,影响病毒自身复制并涉及对病毒的中和效应。采用抗CSFValfortT櫣ｂｉｎｇｅｎ毒株Ｅｒｎｓ糖蛋白的 1B5 ,b4_2 2和 2 4 16单克隆中和抗体 ,筛选噬菌体展示的 12肽随机肽库 ,进行Erns中和表位的鉴定和比较 ,获得分别针对 1B5、b4_2 2和 2 4 16单克隆抗体的 3个主要中和表 (拟 )位基序WxNxxP、DKNR (Q)G和A(T)CxYxKN ,分别定位于Erns的 35 1位～ 35 6位或 348位～ 35 0位、384位～ 386及 32 2位～ 32 3位、380位～ 386位氨基酸区域。分析表 (拟 )位基序与单克隆抗体的免疫反应性差异。b4_2 2和 2 4 16单克隆抗体识别基序存在共有序列KN ,识别Erns中的相似抗原区 ,但其侧翼序列及免疫印迹、免疫荧光抗体抑制试验结果均存在显著差异     

猪瘟病毒糖蛋白Erns中和表位的鉴定和比较

猪瘟病毒（CSFV）囊膜结构糖蛋白Erns（gp48）是诱导机体产生中和抗体及激发保护性免疫应答的第二抗原蛋白。E2和Erns与细胞表面受体的相互作用介导CSFV感染细胞的过程。Erns具有RNA酶活性,影响病毒自身复制并涉及对病毒的中和效应。采用抗CSFV alfort Tübingen 毒 株Erns糖蛋白的1B5, b4_22 和24/16单克隆中和抗体,筛选噬菌体展示的12肽随机肽库,进行Erns中和表位的鉴定和比较,获得分别针对1B5、b4_22 和24/16单克隆抗体的3个主要中和表（拟）位基序WxNxxP、DKNR (Q) G和 A（T）CxYxKN,分别定位于Erns的351位～356位或348位～350位、384位～386及322位～323位、380位～386位氨基酸区域。分析表（拟）位基序与单克隆抗体的免疫反应性差异。B4_22 和 24/16单克隆抗体识别基序存在共有序列KN, 识别Erns中的相似抗原区,但其侧翼序列及免疫印迹、免疫荧光抗体抑制试验结果均存在显著差异。     

狂犬病病毒CVS-11核蛋白B细胞线性抗原表位研究

为阐明狂犬病病毒CVS-11核蛋白B细胞线性抗原表位,本研究通过合成肽模拟B细胞线性抗原表位,采用免疫学方法对生物信息学分析获得的狂犬病病毒CVS-11核蛋白潜在B细胞线性抗原表位进行验证。结果显示,狂犬病病毒CVS-11核蛋白355~369、385~400位氨基酸序列合成肽免疫小鼠血清经间接酶联免疫吸附试验(Enzyme-linked immunosorbent assay,ELISA)检测抗多肽抗体效价达到1∶12 800以上;抗多肽抗体在免疫印迹试验(Western blot,WB)中识别变性狂犬病病毒CVS-11核蛋白抗原,在间接荧光抗体试验(Indirect fluorescent antibody,IFA)中识别感染BHK-21细胞的狂犬病病毒CVS-11核蛋白抗原。因此,狂犬病病毒CVS-11核蛋白355~369、385~400位氨基酸序列经证实为B细胞线性抗原表位。     

噬菌体展示随机十肽库的构建及抗WSSV单链抗体A1的模拟抗原表位的淘选和鉴定

本实验以pCANTAB 5 E噬菌粒为载体,成功构建了较高容量的噬菌体展示随机十肽库,并将其应用于抗原模拟表位的淘选和鉴定.将一种特异识别对虾白斑综合症病毒(White spot syndrome virus, WSSV)的单链抗体A1对十肽库和十五肽库分别进行淘选,结果得到一系列能与单链抗体A1特异性结合的阳性克隆.将这些阳性克隆所编码的多肽氨基酸序列与已知的单链抗体A1的抗原WSSV388片段氨基酸序列做比对,发现多数阳性多肽序列都与WSSV388片段序列的C端一处K····R··R·QS的氨基酸片段相似,由此推论单链抗体A1的模拟抗原表位可能是由该不连续氨基酸片段所构成的构象表位,而非线性表位.研究结果表明,噬菌体展示随机肽库技术是一种用于研究抗原表位结构的有效方法,有助于进一步探讨WSSV的结构蛋白的构象及功能,以及相应单链抗体与细胞受体相互作用的机理.     

猪流行性腹泻病毒S蛋白胞内区线性B细胞表位最小基序鉴定

[背景] S蛋白是猪流行性腹泻病毒（Porcine Epidemic Diarrhea Virus,PEDV）的主要结构蛋白和免疫原性蛋白,在前期的研究中,本课题组在S蛋白的胞内区鉴定到2个包含线性B细胞表位的短肽。[目的] 鉴定PEDV S蛋白胞内区线性B细胞表位的最小基序。[方法] 原核表达2个短肽的每次后移1个氨基酸的系列8肽,以兔抗S蛋白血清为一抗,通过Western Blot筛选阳性反应8肽,鉴定S蛋白胞内区线性B细胞表位的最小基序。[结果] S蛋白胞内区的2个包含线性B细胞表位的短肽共享一个表位,该表位的最小基序为¹³⁷¹QPYE¹³⁷⁴。同源性分析显示该B细胞表位基序为保守性表位。[结论] 确定了S蛋白胞内区线性B细胞表位的最小基序为¹³⁷¹QPYE¹³⁷⁴;S蛋白抗原表位的鉴定有助于提高对其结构和功能的理解。     

Mapping of linear epitopes recognized by monoclonal antibodies with gene-fragment phage display libraries

Epitope mapping with mono- or polyclonal antibodies has so far been done either by dissecting the antigens into overlapping polypeptides in the form of recombinantly expressed fusion proteins, or by synthesizing overlapping short peptides, or by a combination of both methods. Here, we report an alternative method which involves the generation of random gene fragments of approximately 50–200 by in length and cloning these into the 5 terminus of the protein III gene of fd phages. Selection for phages that bind a given monoclonal antibody and sequencing the DNA inserts of immunopositive phages yields derived amino acid sequences containing the desired epitope. A monoclonal antibody (mAb 215) directed against the largest subunit of Drosophila RNA polymerase II (RPB215) was used to map the corresponding epitope in a fUSE5 phage display library made of random DNA fragments from plasmid DNA containing the entire gene. After a single round of panning with this phage library, bacterial colonies were obtained which produced fd phages displaying the mAb 215 epitope. Sequencing of single-stranded phage DNA from a number of positive colonies (recognized by the antibody on colony immunoblots) resulted in overlapping sequences all containing the 15mer epitope determined by mapping with synthetic peptides. Similarly, we have localized the epitopes recognized by a mouse monoclonal antibody directed against the human p53 protein, and by a mouse monoclonal antibody directed against the human cytokeratin 19 protein. Identification of positive colonies after the panning procedure depends on the detection system used (colony immunoblot or ELISA) and there appear to be some restrictions to the use of linker-encoded amino acids for optimal presentation of epitopes. A comparison with epitope mapping by synthetic peptides shows that the phage display method allows one to map linear epitopes down to a size only slightly larger than the true epitope. In general, our phage display method is faster, easier, and cheaper than the construction of overlapping fusion proteins or the use of synthetic peptides, especially in cases where the antigen is a large polypeptide such as the 215 kDa subunit of eukaryotic RNA polymerase II.     

Exploring antibody recognition of sequence space through random-sequence peptide microarrays

A universal platform for efficiently mapping antibody epitopes would be of great use for many applications, ranging from antibody therapeutic development to vaccine design. Here we tested the feasibility of using a random peptide microarray to map antibody epitopes. Although peptide microarrays are physically constrained to ～10(4) peptides per array, compared with 10(8) permitted in library panning approaches such as phage display, they enable a much more high though put and direct measure of binding. Long (20 mer) random sequence peptides were chosen for this study to look at an unbiased sampling of sequence space. This sampling of sequence space is sparse, as an exact epitope sequence is unlikely to appear. Commercial monoclonal antibodies with known linear epitopes or polyclonal antibodies raised against engineered 20-mer peptides were used to evaluate this array as an epitope mapping platform. Remarkably, peptides with the most sequence similarity to known epitopes were only slightly more likely to be recognized by the antibody than other random peptides. We explored the ability of two methods singly and in combination to predict the actual epitope from the random sequence peptides bound. Though the epitopes were not directly evident, subtle motifs were found among the top binding peptides for each antibody. These motifs did have some predictive ability in searching for the known epitopes among a set of decoy sequences. The second approach using a windowing alignment strategy, was able to score known epitopes of monoclonal antibodies well within the test dataset, but did not perform as well on polyclonals. Random peptide microarrays of even limited diversity may serve as a useful tool to prioritize candidates for epitope mapping or antigen identification.     

A combinatorial mutagenesis approach for functional epitope mapping on phage-displayed target antigen

Although multiple different procedures to characterize the epitopes recognized by antibodies have been developed, site-directed mutagenesis remains the method of choice to define the energetic contribution of antigen residues to binding. These studies are useful to identify critical residues and to delineate functional maps of the epitopes. However, they tend to underestimate the roles of residues that are not critical for binding on their own, but contribute to the formation of the target epitope in an additive, or even cooperative, way. Mapping antigenic determinants with a diffuse energetic landscape, which establish multiple individually weak interactions with the antibody paratope, resulting in high affinity and specificity recognition of the epitope as a whole, is thus technically challenging. The current work was aimed at developing a combinatorial strategy to overcome the limitations of site-directed mutagenesis, relying on comprehensive randomization of discrete antigenic regions within phage-displayed antigen libraries. Two model antibodies recognizing epidermal growth factor were used to validate the mapping platform. Abrogation of antibody recognition due to the introduction of simultaneous replacements was able to show the involvement of particular amino acid clusters in epitope formation. The abundance of some of the original residues (or functionally equivalent amino acids sharing their physicochemical properties) among the set of mutated antigen variants selected on a given antibody highlighted their contributions and allowed delineation of a detailed functional map of the corresponding epitope. The use of the combinatorial approach could be expanded to map the interactions between other antigens/antibodies.     

A combinatorial mutagenesis approach for functional epitope mapping on phage-displayed target antigen: Application to antibodies against epidermal growth factor

Although multiple different procedures to characterize the epitopes recognized by antibodies have been developed, site-directed mutagenesis remains the method of choice to define the energetic contribution of antigen residues to binding. These studies are useful to identify critical residues and to delineate functional maps of the epitopes. However, they tend to underestimate the roles of residues that are not critical for binding on their own, but contribute to the formation of the target epitope in an additive, or even cooperative, way. Mapping antigenic determinants with a diffuse energetic landscape, which establish multiple individually weak interactions with the antibody paratope, resulting in high affinity and specificity recognition of the epitope as a whole, is thus technically challenging. The current work was aimed at developing a combinatorial strategy to overcome the limitations of site-directed mutagenesis, relying on comprehensive randomization of discrete antigenic regions within phage-displayed antigen libraries. Two model antibodies recognizing epidermal growth factor were used to validate the mapping platform. Abrogation of antibody recognition due to the introduction of simultaneous replacements was able to show the involvement of particular amino acid clusters in epitope formation. The abundance of some of the original residues (or functionally equivalent amino acids sharing their physicochemical properties) among the set of mutated antigen variants selected on a given antibody highlighted their contributions and allowed delineation of a detailed functional map of the corresponding epitope. The use of the combinatorial approach could be expanded to map the interactions between other antigens/antibodies.     

UreB蛋白B细胞抗原表位快速筛选与鉴定

以幽门螺旋杆菌(Helicobacterpylori,Hp)主要抗原蛋白尿素酶B(ureaseB,UreB)为靶蛋白,建立一种新的B细胞抗原表位筛选与鉴定方法.运用Fmoc固相肽合成法合成11条HpUreB蛋白的单表位抗原肽片段,在其氨基端标记FITC荧光素,应用荧光偏振方法(fluorescencepolarization,FP)快速鉴定这些肽片段的抗原性,并通过FP法在大规模样品中快速筛选相应抗体滴度高、分布人群广的优势抗原表位肽.结果表明,合成的11条UreB蛋白线性抗原肽中,10条具有较强的抗原性,其中No.2、No.5和No.11抗原肽相应的特异性抗体在感染Hp的人群中分布较广,抗体滴度较高,为UreB的优势抗原表位肽.对抗原表位进行多参数综合分析与设计,通过FP技术快速鉴定抗原肽,并筛选优势抗原表位肽,对于疾病的抗原表位谱研究具有重要的意义,同时在疾病的诊断、分型及治疗中具有重要的应用前景.     

Multiple overlapping epitopes in the three antigenic regions of horse cytochrome c1

To gain a better understanding of the diversity of epitopes on a protein, the specificities of 103 monoclonal antibodies to a model antigen, horse cytochrome c(cyt c), were analyzed. The antibodies were generated in in vitro monoclonal, secondary antibody responses against horse cyt c coupled to hemocyanin in splenic fragment cultures. For this assay, horse cyt c-primed murine B lymphocytes were transferred to irradiated, hemocyanin-primed recipients. A panel of seven mammalian cyts c differing at one to six residues out of 104 and cyanogen bromide-cleaved fragments of horse cyt c containing residues 1-65, 1-80, and 66-104 was used to examine the specificities of the antibodies. Twenty-two distinct reactivity patterns were observed, even though the majority of the monoclonal antibodies were found to bind in the three previously identified antigenic regions of the molecule about residues 44-47, 60-62, and 89-92. The results indicate that each of the three antigenic regions consists of multiple overlapping epitopes. Few of the antibodies directed to any given antigenic region bound polypeptide fragments inclusive of the epitope sequences, demonstrating that some antibodies were more conformationally dependent than others. Only 13% of the antibodies bound to cyanogen bromide-cleaved polypeptide fragments that together encompassed the entire length of the protein. Considering the large number of antibodies analyzed and the reoccurrence of 13 of the 22 clonotypes in different lymphocyte donors, it is likely that the antibody specificities tabulated herein approach yet do not completely enumerate the total inventory of the horse cyt c-specific B cell repertoire. The remarkable diversity for epitope recognition within antigenic regions observed here is likely to pertain to protein antigens in general, and strongly supports the widely held notion that the entire surface of a protein is potentially antigenic. The restriction of the epitopes of horse cyt c to three antigenic regions where the amino acid sequences of the mammalian cyts c differ probably results from tolerance of the mice to their own cyt c.     

A straightforward protocol for the preparation of high performance microarray displaying synthetic MUC1 glycopeptides

Background

Human serum MUC1 peptide fragments bearing aberrant O-glycans are secreted from columnar epithelial cell surfaces and known as clinically important serum biomarkers for the epithelial carcinoma when a specific monoclonal antibody can probe disease-relevant epitopes. Despite the growing importance of MUC1 glycopeptides as biomarkers, the precise epitopes of most anti-MUC1 monoclonal antibodies remains unclear.

Methods

A novel protocol for the fabrication of versatile microarray displaying peptide/glycopeptide library was investigated for the construction of highly sensitive and accurate epitope mapping assay of various anti-MUC1 antibodies.

Results

Selective imine-coupling between aminooxy-functionalized methacrylic copolymer with phosphorylcholine unit and synthetic MUC1 glycopeptides-capped by a ketone linker at N-terminus provided a facile and seamless protocol for the preparation of glycopeptides microarray platform. It was demonstrated that anti-KL-6 monoclonal antibody shows an extremely specific and strong binding affinity toward MUC1 fragments carrying sialyl T antigen (Neu5Acα2,3Galβ1,3GalNAcα1→) at Pro-Asp-Thr-Arg motif when compared with other seven anti-MUC1 monoclonal antibodies such as VU-3D1, VU-12E1, VU-11E2, Ma552, VU-3C6, SM3, and DF3. The present microarray also uncovered the occurrence of IgG autoantibodies in healthy human sera that bind specifically with sialyl T antigen attached at five potential O-glycosylation sites of MUC1 tandem repeats.

Conclusion

We established a straightforward strategy toward the standardized microarray platform allowing highly sensitive and accurate epitope mapping analysis by reducing the background noise due to nonspecific protein adsorption.

General significance

The present approach would greatly accelerate the discovery research of new class autoantibodies as well as the development of therapeutic mAbs reacting specifically with disease-relevant epitopes.     

Fine specificity of the human immune response to the major neutralization epitopes expressed on cytomegalovirus gp58/116 (gB), as determined with human monoclonal antibodies.

The humoral immune response to human cytomegalovirus (CMV) membrane glycoprotein gp58/116 (gB) has been studied by establishing cell lines producing specific human monoclonal antibodies. These cell lines were generated from peripheral blood lymphocytes obtained from a healthy carrier. Hybridomas producing gp58/116-specific antibodies were detected by reactivity to procaryotically expressed proteins containing the major neutralizing epitopes of this glycoprotein complex. One antibody, ITC88, which recognized an epitope located between amino acid residues 67 and 86 of gp116, potently neutralized the virus at 1 to 2 micrograms of immunoglobulin G per ml. Only four of the six human antibodies detecting the major neutralizing domain of gp58 neutralized the virus, and none of them required complement for activity. All antibodies that bound mature, processed gp58 recognized a conformational epitope involving sequences between residues 549 and 635. However, small differences existed between the antibodies in the actual minimal requirement for C- and N-terminal parts of this epitope. By peptide mapping with several of the antibodies, the epitope was shown to consist mainly of residues between amino acids 570 to 579 and 606 to 619. Despite the conformational nature of the epitope, the antibodies recognized both reduced and denatured native antigen. Presence of carbohydrates was not required for antigen binding of these gp58-specific human antibodies, but in at least one case, it greatly enhanced antigen recognition, indicating an importance of carbohydrate structures in some epitopes within the major neutralizing specificity of gp58.     

一株抗蓝舌病病毒8型VP2蛋白单克隆抗体识别的线性抗原表位的鉴定

为研究本实验室制备的一株抗蓝舌病病毒8型(BTV-8)VP2蛋白的单克隆抗体(MAb)3G11识别的B细胞抗原表位,利用噬菌体肽库展示技术对3G11识别的抗原表位进行筛选并鉴定。经过4轮淘选后挑取蓝斑测序,测序结果经分析后获得KLLAT序列,与BTV-8 VP2蛋白氨基酸序列比对后获得共同的短肽序列为283LL284;合成4种短肽序列:KLLAA、KALAT、KLAAT和KLLAT,与3G11细胞上清和腹水分别进行间接ELISA鉴定,结果表明,短肽KLLAA和KLLAT与3G11细胞上清及腹水具有较强的结合能力;与24种BTV标准阳性血清反应结果表明,这两种短肽都可与BTV-8阳性血清发生特异性反应;序列分析结果可见,该表位的氨基酸序列283LL284在不同来源的BTV-8毒株间保守,确定283LL284为MAb3G11识别抗原表位的关键氨基酸。本研究为建立8型BTV特异性的免疫学检测方法和相关病毒蛋白的功能研究奠定了基础。