Mapping of hiv-1 Gag epitopes recognized by polyclonal antibodies using gene-fragment phage display system.

Phage display has emerged as a powerful technique for mapping epitopes recognised by monoclonal and polyclonal antibodies. We have recently developed a simple gene-fragment phage display system and have shown its utility in mapping epitope recognised by a monoclonal antibody. In the present study, we have employed this system in mapping epitopes recognised by polyclonal antibodies raised against HIV-1 capsid protein, p24 which is derived from proteolytic cleavage of Gag polyprotein. HIV-1 gag DNA was fragmented by DNase I and the fragments (50-250 bp) were cloned into gene-fragment phage display vector to construct a library of phages displaying peptides. This phage library was used for affinity selection of phages displaying epitopes recognised by rabbit anti-p24 polyclonal antibodies. Selected phages contained sequences from two discrete regions of p24, demonstrating the presence of two antigenic regions. The DNA sequences encoding these regions were also cloned and expressed as GST fusion proteins. The immunoreactivity of these epitopes as GST fusion proteins, or as phage-displayed peptides, was comparable in ELISA system using same anti-p24 polyclonal antibodies. The results indicate that the gene-fragment based phage display system can be used efficiently to identify epitopes recognised by polyclonal antibodies, and phage displayed epitopes can be directly employed in ELISA to detect antibodies.     

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.     

传染性法氏囊病病毒五个抗原表位短肽的鉴定与序列分析

以5株传染性法氏囊病病毒(Infectious bursal disease virus,IBDV)单克隆抗体HNF1、HNF7、B34、2B1和2G8作为筛选分子,对噬菌体展示12肽库进行3轮"吸附-洗脱-扩增"淘洗,从每株单克隆抗体筛选到的噬菌斑中随机挑取12个单克隆蓝色噬菌斑,合计60个,用间接ELISA检测,A值大于1.00;用竞争抑制ELISA分析,单克隆抗体和IBDV抗原均能竞争抑制筛选12肽与固相包被单克隆抗体的反应,抑制率大于40%,表明在该12肽内含有IBDV抗原表位。选取35个单克隆噬菌斑,测定噬菌体gIII部分基因的核苷酸序列,确定了这5个含有不同IBDV抗原表位12肽的核苷酸和氨基酸序列。进一步将其与GenBank中IBDV基因组编码蛋白的氨基酸序列进行比较,发现2B1筛选肽有4个连续氨基酸残基Leu-Ala-Ser-Pro与IBDV基因组A片段编码多聚蛋白的第536-599氨基酸残基一致,推测2B1为线性表位;而HNF1、HNF7、B34和2G8筛选肽均没找到有3个以上连续氨基酸残基与IBDV蛋白序列相同之处,推测可能是构象依赖性表位。     

Identification of phage-displayed peptides which bind to the human HnRNPA1 protein-specific monoclonal antibody.

We have screened a peptide phage display library to examine if monoclonal antibody-binding phages could be isolated from the library and thereby predict the antigenic epitopes of the antibodies from the isolated phages. The library was screened for high-avidity binding to monoclonal antibodies by an affinity purification technique called biopanning. Among the monoclonal antibodies examined, the human hnRNPA1 protein-specific monoclonal antibody 9H10 showed selective binding of phages. After two rounds of the biopanning, twelve clones of high-avidity-binding phages were chosen and their inserts were sequenced. Nucleotide sequence comparison of the 12 clones showed that there were 5 different species, with two species containing four members, implying that they were predominantly selected by the biopanning. The amino acid sequences of the inserts of the 12 clones were compared with that of the human hnRNPA1 protein in order to find the putative epitope of the human hnRNPA1 protein for 9H10. The C-terminal region of the human hnRNPA1 protein shows significant homology with the peptide sequences of the selected phage clones. These results show that this peptide phage display library can be useful in defining the epitope of some monoclonal antibodies.     

Shotgun phage display — Selection for bacterial receptins or other exported proteins

Shotgun phage display cloning involves construction of libraries from randomly fragmented bacterial chromosomal DNA, cloned genes, or eukaryotic cDNAs, into a phagemid vector. The library obtained consists of phages expressing polypeptides corresponding to all genes encoded by the organism, or overlapping peptides derived from the cloned gene. From such a library, polypeptides with affinity for another molecule can be isolated by affinity selection, panning. The technique can be used to identify bacterial receptins and identification of their minimal binding domain, and but also to identify epitopes recognised by antibodies. In addition, after modification of the phagemid vector, the technique has also been used to identify bacterial extracytoplasmic proteins. Published: May 1, 2003     

Selection of Peptide Mimics of HIV-1 Epitope Recognized by Neutralizing Antibody VRC01

The ability to induce anti-HIV-1 antibodies that can neutralize a broad spectrum of viral isolates from different subtypes seems to be a key requirement for development of an effective HIV-1 vaccine. The epitopes recognized by the most potent broadly neutralizing antibodies that have been characterized are largely discontinuous. Mimetics of such conformational epitopes could be potentially used as components of a synthetic immunogen that can elicit neutralizing antibodies. Here we used phage display technology to identify peptide motifs that mimic the epitope recognized by monoclonal antibody VRC01, which is able to neutralize up to 91% of circulating primary isolates. Three rounds of biopanning were performed against 2 different phage peptide libraries for this purpose. The binding specificity of selected phage clones to monoclonal antibody VRC01 was estimated using dot blot analysis. The putative peptide mimics exposed on the surface of selected phages were analyzed for conformational and linear homology to the surface of HIV-1 gp120 fragment using computational analysis. Corresponding peptides were synthesized and checked for their ability to interfere with neutralization activity of VRC01 in a competitive inhibition assay. One of the most common peptides selected from 12-mer phage library was found to partially mimic a CD4-binding loop fragment, whereas none of the circular C7C-mer peptides was able to mimic any HIV-1 domains. However, peptides identified from both the 12-mer and C7C-mer peptide libraries showed rescue of HIV-1 infectivity in the competitive inhibition assay. The identification of epitope mimics may lead to novel immunogens capable of inducing broadly reactive neutralizing antibodies.     

Reactivity of an HIV gag gene polypeptide expressed in E. coli with sera from AIDS patients and monoclonal antibodies to gag

A segment of the gag gene of the human immunodeficiency virus (HIV) (HTLV-IIIB strain), the virus which causes acquired immunodeficiency syndrome (AIDS), has been cloned into the bacterial expression vector, pCQV2, and mapped to the right-hand portion of the gag gene containing the carboxyl-terminal portion of p24 and the amino-terminal portion of p15. Nucleic-acid sequencing of the insert-vector junctions further defined the 5'-terminal nucleotide of HIV sequence as nucleotide 997 and the 3'-terminal nucleotide as 1696. When used in an enzyme-linked immunosorbent assay (ELISA) with sera from HIV-infected patients, the cloned antigen reacted with a subset of sera which were positive on a standard ELISA using whole virus as antigen. Western-blot screening of these sera with whole virus indicated that all p24-positive sera were positive with the clone, suggesting that the carboxyl-terminal portion of p24 contains a highly antigenic epitope(s). A serum which was p24-negative p15-positive by Western blot analysis was also highly reactive, indicating that a p15 epitope is present in the cloned antigen. Epitope mapping with a series of monoclonal antibodies to gag resulted in positive ELISA with 2 of 3 anti-p24, 0 of 1 anti-p15, and 0 of 1 anti-p17 Western-blot-positive monoclonal antibodies, suggesting that one of the anti-p24 monoclonal antibodies reacts with epitopes amino-terminal to those coded from nucleotide 997, two anti-p24 monoclonals react with epitopes carboxyl-terminal to those coded from nucleotide 997, and the anti-p15 monoclonal reacts with epitopes carboxyl-terminal to those coded from nucleotide 1696.     

HIV蛋白质优势B细胞抗原表位的筛选、重组表达与抗原性鉴定

设计了一种新的病原体蛋白质B细胞抗原表位的筛选和重 组表达方法。不须使用抗原,而通过交替用病人血清IgG抗体“淘洗”(biopanning)随机肽库和用正常人血清IgG反向吸附,来获得特异抗原表位资料。用HIV病人血清的IgG抗体淘洗噬菌体递呈随机十二肽库,再以正常人IgG抗体吸附,筛选到了能和HIV病人血清发生特异反应的噬菌体克隆,经ELISA、DNA测序等,成功地筛选出了位于HIV gp41外膜蛋白、高亲和力、构型特异的优势B细胞抗原表位(602GCSGKLICTTNV613)。用大肠杆菌硫氧还蛋白作为骨架,在其活性部位以“内融合”形式重组表达了该抗原表位,纯化的重组蛋白具有良好的抗原性,能与HIV(+)IgG抗体及艾滋病人血清呈特异反应,表明本技术路线可以有 效地进行HIV蛋白质的B细胞抗原表位筛选和重组表达。此方法也可移植于其它病原微生物抗原或自身抗原的表位研究,继而为基于抗原表位水平的特异诊断试剂的研制、疫苗的设计提供依据。     

SARS-CoVN蛋白抗原表位的筛选和鉴定

利用噬菌体展示的线性12肽库从马抗SARS-CoVIgG筛选SARS-CoV的抗原表位。经生物淘洗富集的噬菌体克隆被测序。获得两个共有序列:DXXDP和TXTLL。它们分别与SARS-CoVN蛋白341-345和392-396位氨基酸序列高度同源。含共有序列的克隆在ELISA竞争抑制试验中与SARS-CoVN蛋白竞争结合马抗SARS-CoVIgG。将两个共有序列肽通过基因重组技术成功展示到大肠杆菌鞭毛,获得重组菌F1和F2。用重组菌F1和F2免疫接种试验Balb/c小鼠产生的血清均能与SARS-CoVN蛋白特异结合。说明DXXDP和TXTLL是SARS-CoVN蛋白的两个连续抗原表位。     

基质金属蛋白酶2抑制剂的筛选及鉴定

以原核表达的具有明胶水解活性的人基质金属蛋白酶 2的催化区 (MCD)为靶标 ,筛选噬菌体随机环七肽库和十二肽库 .找到 6种与MCD特异结合的小肽 ,将 6种小肽基因分别与GST表达质粒重组 ,进行GST融合表达 ,制备融合蛋白 .采用Glutathione Sepharose 4B亲和层析法纯化融合蛋白 ,通过酶抑制实验、体外侵袭实验检测融合蛋白的活性 .结果表明 ,GST C71能够抑制MCD水解 β酪蛋白的活性 ,并且对人纤维肉瘤细胞HT10 80的体外侵袭有明显的抑制作用     

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.     

BLyS对噬菌体随机12肽库的筛选

用B淋巴细胞刺激因子（BLyS）对噬菌体随机12肽库进行亲和淘洗,3轮筛选后阳性噬菌体得到富集。用ELISA鉴定噬菌体克隆,多个阳性克隆测序后得到了同一个小肽序列(RHKIQLRQNIIT)。将该小肽与GST融合,在大肠杆菌中进行表达及纯化,ELISA实验进一步验证了其具有与BLyS特异结合的活性。该小肽有可能成为其天然受体的拮抗剂。      

Peptide epitope identification by affinity selection on bacteriophage MS2 virus-like particles

Filamentous phages are now the most widely used vehicles for phage display and provide efficient means for epitope identification. However, the peptides they display are not very immunogenic because they normally fail to present foreign epitopes at the very high densities required for efficient B-cell activation. Meanwhile, systems based on virus-like particles (VLPs) permit the engineered high-density display of specific epitopes but are incapable of peptide library display and affinity selection. We developed a new peptide display platform based on VLPs of the RNA bacteriophage MS2. It combines the high immunogenicity of MS2 VLPs with the affinity selection capabilities of other phage display systems. Here, we describe plasmid vectors that facilitate the construction of high-complexity random sequence peptide libraries on MS2 VLPs and that allow control of the stringency of affinity selection through the manipulation of display valency. We used the system to identify epitopes for several previously characterized monoclonal antibody targets and showed that the VLPs thus obtained elicit antibodies in mice whose activities mimic those of the selecting antibodies.     

Purification of polyclonal anti-conformational antibodies for use in affinity selection from random peptide phage display libraries: A study using the hydatid vaccine EG95

The use of polyclonal antibodies to screen random peptide phage display libraries often results in the recognition of a large number of peptides that mimic linear epitopes on various proteins. There appears to be a bias in the use of this technology toward the selection of peptides that mimic linear epitopes. In many circumstances the correct folding of a protein immunogen is required for conferring protection. The use of random peptide phage display libraries to identify peptide mimics of conformational epitopes in these cases requires a strategy for overcoming this bias. Conformational epitopes on the hydatid vaccine EG95 have been shown to result in protective immunity in sheep, whereas linear epitopes are not protective. In this paper we describe a strategy that results in the purification of polyclonal antibodies directed against conformational epitopes while eliminating antibodies directed against linear epitopes. These affinity purified antibodies were then used to select a peptide from a random peptide phage display library that has the capacity to mimic conformational epitopes on EG95. This peptide was subsequently used to affinity purify monospecific antibodies against EG95.     

Peptides that mimic Candida albicans-derived beta-1,2-linked mannosides

Beta-1,2-linked mannosides from Candida albicans phosphopeptidomannan (PPM) bind to macrophages through a receptor independent from the macrophage alpha-linked mannose receptor and stimulate these cells to secrete immune mediators. Anti-beta-1,2-linked mannoside but not anti-alpha-linked mannoside antibodies produced after immunization with neoglycoproteins protect animals from disseminated candidiasis. In this study, peptides that mimic beta-1,2-linked mannosides were isolated using phage display methodology. A phage library expressing random peptides was panned with an anti-beta-1,2-linked mannoside monoclonal antibody (mAb). After three rounds of biopanning, the isolated phages were able to inhibit recognition of C. albicans by the mAb. Sixty percent of the phages had an identical DNA insert corresponding to the peptide sequence FHENWPS that was recognized specifically by the mAb. Injection of KLH-coupled peptide into mice generated high titers of polyclonal antibodies against C. albicans yeast cell walls. The anti-FHENWPS antibodies bound to C. albicans PPM and were inhibited by soluble beta-1,2-mannotetraose. Together, these data provide evidence for mimotopic activity of the peptide selected by biopanning with the anti-beta-1,2-oligomannoside mAb.     

Use of bacteriophage T7 displayed peptides for determination of monoclonal antibody specificity and biosensor analysis of the binding reaction

A heptapeptide library displayed by bacteriophage T7 was used to characterize epitopes of the monoclonal antibodies F4, F5, and LT1 directed against mouse polyomavirus large T-antigen. Phage selected by biopanning was cloned by plaque isolation, and the binding specificity of individual clones was confirmed by enzyme-linked immunosorbent assay. In phage reacting with the F5 antibody the deduced amino acid sequence of the displayed peptides corresponded to a segment of large T-antigen. In phage reacting with the antibodies F4 and LT1, no such similarity was observed. The kinetics of phage particle-monoclonal antibody complex formation and dissociation was analyzed in an optical biosensor instrument. Sensor chips of standard quality were useful for binding analysis of T7 phage in crude lysates of infected Escherichia coli. We synthesized peptides corresponding to selected consensus sequences and showed by biosensor analysis that these peptides (linear NH3-CPNSLTPADPTMDY-COOH and NH3-NSLTPCNNKPSNRC-COOH with an intramolecular S--S bridge) were able to compete with large T-antigen in binding to the corresponding antibodies (LT1 and F4). These synthetic peptides were also used for gentle and specific dissociation of large T-antigen-antibody complexes. The results demonstrate the potential of phage T7 for display of peptides and for rapid analysis of interactions of these peptides with ligands.     

Phage presentation

There has recently been great interest in the use of the filamentous bacteriophage fd as a vehicle for the display of peptides and proteins. Phage libraries displaying random peptides up to 38 amino acids in length can be used (i) to select for ligands able to bind specific target molecules; (ii) to mimic non-proteinaceous ligands; and (iii) as a tool to map epitopes recognized by antibodies. The display of proteins or their functional domains provides a system for the analysis of structure-function relationships, and the potential to generate proteins with altered binding characteristics or novel catalytic properties. The display of short immunogenic determinants on fusion phage may provide a basis for the development of novel peptide vaccines, whilst the expression of libraries of antibody fragments may provide a method to by-pass hybridoma technology in the generation of monoclonal antibodies.     

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。     

Optimization of phage-immobilized ELISA for autoantibody profiling in human sera

Phage libraries displaying cDNA or random peptides have been used for profiling autoantibodies in cancer. The detection of autoantibodies in human sera using phages displaying specific epitopes is usually performed by phage-immobilized ELISAs which can detect specific antibodies without identification of whole antigens. However, these ELISAs can give feeble detection signals that are indistinguishable from background signals which are caused by human sera. To improve the usefulness of phage ELISA for human sera, the conditions for each step in phage ELISA were optimized. The antigenicity of phage antigens was maximal when using coating buffer of neutral pH. By using protein-free blocking buffer and pre-adsorbing human sera with phage host cell ER2738 extracts significantly decreased non-specific signals. Finally, when these conditions were applied to phage ELISA using K10P1, the values of the negative controls were concentrated near cutoff values, which made the assay more reliable. The optimized phage ELISA conditions described here would increase the efficacy of detection specific autoantibodies in human sera.     

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