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。     

Determination of protein-derived epitopes by mass spectrometry

Mass spectrometry has evolved as a technique suitable for the characterization of peptides and proteins beyond their linear sequence. The advantages of mass spectrometric sample analysis are high sensitivity, high mass accuracy, rapid analysis time and low sample consumption. In epitope mapping, the molecular structure of an antigen (the epitope or antigenic determinant) that interacts with the paratope (recognition surface) of the antibody is identified. To obtain information on linear, conformational and/or discontinuous epitopes, various approaches have been developed in conjunction with mass spectrometry. These methods include limited proteolysis and epitope footprinting, epitope excision and epitope extraction for linear epitopes and probing the surface accessibility of residues by differential chemical modifications of specific amino acid side chains or by differential hydrogen/deuterium exchange of the protein backbone amides for conformational and discontinuous epitopes. Epitope mapping by mass spectrometry is applicable in basic biochemical research and, with increasing robustness, should soon find its implementation in routine clinical diagnosis.     

Determination of protein-derived epitopes by mass spectrometry

Mass spectrometry has evolved as a technique suitable for the characterization of peptides and proteins beyond their linear sequence. The advantages of mass spectrometric sample analysis are high sensitivity, high mass accuracy, rapid analysis time and low sample consumption. In epitope mapping, the molecular structure of an antigen (the epitope or antigenic determinant) that interacts with the paratope (recognition surface) of the antibody is identified. To obtain information on linear, conformational and/or discontinuous epitopes, various approaches have been developed in conjunction with mass spectrometry. These methods include limited proteolysis and epitope footprinting, epitope excision and epitope extraction for linear epitopes and probing the surface accessibility of residues by differential chemical modifications of specific amino acid side chains or by differential hydrogen/deuterium exchange of the protein backbone amides for conformational and discontinuous epitopes. Epitope mapping by mass spectrometry is applicable in basic biochemical research and, with increasing robustness, should soon find its implementation in routine clinical diagnosis.     

Structural mimicry of CD4 by a cross-reactive HIV-1 neutralizing antibody with CDR-H2 and H3 containing unique motifs

Human immunodeficiency virus (HIV) entry into cells is initiated by the binding of its envelope glycoprotein (Env) gp120 to receptor CD4. Antibodies that bind to epitopes overlapping the CD4-binding site (CD4bs) on gp120 can prevent HIV entry by competing with cell-associated CD4; their ability to outcompete CD4 is a major determinant of their neutralizing potency and is proportional to their avidity. The breadth of neutralization and the likelihood of the emergence of antibody-resistant virus are critically dependent on the structure of their epitopes. Because CD4bs is highly conserved, it is reasonable to hypothesize that antibodies closely mimicking CD4 could exhibit relatively broad cross-reactivity and a high probability of preventing the emergence of resistant viruses. Previously, in a search for antibodies that mimic CD4 or the co-receptor, we identified and characterized a broadly cross-reactive HIV-neutralizing CD4bs human monoclonal antibody (hmAb), m18. Here, we describe the crystal structure of Fab m18 at 2.03 A resolution, which reveals unique conformations of heavy chain complementarity-determining regions (CDRs) 2 and 3 (H2 and H3). H2 is highly bulged and lacks cross-linking interstrand hydrogen bonds observed in all four canonical structures. H3 is 17.5 A long and rigid, forming an extended beta-sheet decorated with an alpha-turn motif bearing a phenylalanine-isoleucine fork at the apex. It shows striking similarity to the Ig CDR2-like C'C' region of the CD4 first domain D1 that dominates the binding of CD4 to gp120. Docking simulations suggest significant similarity between the m18 epitope and the CD4bs on gp120. Fab m18 does not enhance binding of CD4-induced (CD4i) antibodies, nor does it induce CD4-independent fusion mediated by the HIV Env. Thus, vaccine immunogens based on the m18 epitope structure are unlikely to elicit antibodies that could enhance infection. The structure can also serve as a basis for the design of novel, highly efficient inhibitors of HIV entry.     

Linear B-cell epitopes of the major core protein of human immunodeficiency virus types 1 and 2.

Nine murine monoclonal antibodies directed to the major core protein p24 of human immunodeficiency virus type 1 (HIV-1) were obtained and then tested by using an epitope mapping system (Pepscan) covering the whole p24HIV1 protein to characterize antigenic domains. Four different linear epitopes were identified. Monoclonal antibodies recognizing three of these epitopes also reacted to p26HIV2 in Western blotting (immunoblotting). A monoclonal antibody specific for the fourth epitope, located at position 179 to 188 of the gag polyprotein p55HIV1 (human T-cell lymphotropic virus type 3B strain), did not react with HIV type 2 (HIV-2) core proteins. The corresponding sequence is constant in all known HIV-2 and simian immunodeficiency virus (SIV) isolates, including a very divergent SIV strain from African green monkeys (SIVagm/tyo). This observation may be relevant to the phylogeny of primate lentiviruses. Two of the conserved epitopes might be immunogenic during natural infection and could therefore be used for diagnosis and prognosis purposes. These two epitopes are AAEWDRVHP and EIYKRWII, starting at positions 209 and 260 of the polyprotein p55HIV1, respectively.     

Synthesis and analysis of the membrane proximal external region epitopes of HIV‐1

The membrane proximal external region (MPER) of gp41 abuts the viral membrane at the base of HIV‐1 envelope glycoprotein spikes. The MPER is highly conserved and is rich in Trp and other lipophilic residues. The MPER is also required for the infection of host cells by HIV‐1 and is the target of the broadly neutralizing antibodies, 4E10, 2F5, and Z13e1. These neutralizing antibodies are valuable tools for understanding relevant conformations of the MPER and for studying HIV‐1 neutralization, but multiple approaches used to elicit MPER binding antibodies with similar neutralization properties have failed. Here we report our efforts to mimic the MPER using linear as well as constrained peptides. Unnatural amino acids were also introduced into the core epitope of 4E10 to probe requirements of antibody binding. Peptide analogs with C‐terminal Api or Aib residues designed to be helical transmembrane (TM) domain surrogates exhibit enhanced binding to the 4E10 and Z13e1 antibodies. However, we find that placement of constrained amino acids at nonbinding sites within the core epitope significantly reduce binding. These results are relevant to an understanding of native MPER structure on HIV‐1, and form a basis for a chemical synthesis approach to mimic MPER stricture and to construct an MPER‐based vaccine. Copyright © 2010 European Peptide Society and John Wiley & Sons, Ltd.     

Towards irreversible HIV inactivation: stable gp120 binding by nucleophilic antibodies

Conventional antibodies react with antigens reversibly. We report the formation of unusually stable complexes of HIV gp120 and nucleophilic antibodies raised by immunization with an electrophilic HIV gp120 analog (E-gp120). The stability of the complexes was evident from their very slow dissociation in a nondenaturing solvent (approximate t(1/2) 18.5 days) and their resistance to dissociation by a denaturant commonly employed to disrupt noncovalent protein-protein binding (sodium dodecyl sulfate). Kinetic studies indicated time-dependent and virtually complete progression of the antibody-gp120 complexes from the initial noncovalent state to a poorly dissociable state. The antibodies to E-gp120 displayed improved covalent reactivity with an electrophilic phosphonate probe compared to control antibodies, suggesting their enhanced nucleophilicity. One of the stably binding antibodies neutralized the infectivity of CCR5-dependent primary HIV strains belonging to clades B and C. These findings suggest the feasibility of raising antibodies capable of long-lasting inactivation of antigens by electrophilic immunization.     

HIV-1 Vaccine-Induced T-Cell Reponses Cluster in Epitope Hotspots that Differ from Those Induced in Natural Infection with HIV-1

Several recent large clinical trials evaluated HIV vaccine candidates that were based on recombinant adenovirus serotype 5 (rAd-5) vectors expressing HIV-derived antigens. These vaccines primarily elicited T-cell responses, which are known to be critical for controlling HIV infection. In the current study, we present a meta-analysis of epitope mapping data from 177 participants in three clinical trials that tested two different HIV vaccines: MRKAd-5 HIV and VRC-HIVAD014-00VP. We characterized the population-level epitope responses in these trials by generating population-based epitope maps, and also designed such maps using a large cohort of 372 naturally infected individuals. We used these maps to address several questions: (1) Are vaccine-induced responses randomly distributed across vaccine inserts, or do they cluster into immunodominant epitope hotspots? (2) Are the immunodominance patterns observed for these two vaccines in three vaccine trials different from one another? (3) Do vaccine-induced hotspots overlap with epitope hotspots induced by chronic natural infection with HIV-1? (4) Do immunodominant hotspots target evolutionarily conserved regions of the HIV genome? (5) Can epitope prediction methods be used to identify these hotspots? We found that vaccine responses clustered into epitope hotspots in all three vaccine trials and some of these hotspots were not observed in chronic natural infection. We also found significant differences between the immunodominance patterns generated in each trial, even comparing two trials that tested the same vaccine in different populations. Some of the vaccine-induced immunodominant hotspots were located in highly variable regions of the HIV genome, and this was more evident for the MRKAd-5 HIV vaccine. Finally, we found that epitope prediction methods can partially predict the location of vaccine-induced epitope hotspots. Our findings have implications for vaccine design and suggest a framework by which different vaccine candidates can be compared in early phases of evaluation.     

Characterization of two major isoforms of juvenile hormone esterase from Trichoplusia ni (Lepidoptera)

The two major isoforms of juvenile hormone (JH) esterase isolated from Trichoplusia ni were fragmented by cyanogen bromide and trypsin digestion. The resulting CNBr or CNBr/trypsin fragments were characterized and compared biochemically by SDS-PAGE, isoelectric focusing, two-dimensional electrophoresis and HPLC. Similar and unique fragments were examined for sequence, antigenic determinants and carbohydrate moieties. The studies identified small regions of the proteins which possess either potentially different sequences or different post-translational modifications. The location of a glycosylated asparagine residue was determined, as well as a region containing an epitope probably composed of a linear sequence of residues. An N-terminal region was identified that contained charge variation between the two isoforms and the sequence was obtained for the only unique CNBr/trypsin fragment detected from that region. These are the first data on mapping of regions of charge variation, epitope location and glycosylation sites for this enzyme from any insect species.     

The disulfide loop of gp41 is critical to the furin recognition site of HIV gp160

The importance of the HIV gp41 conserved disulfide loop to envelope function has been examined by mutational and functional analyses. Based on a luciferase-reporter entry assay, mutants gp41-CC/AA (C598A/C604A) and gp41-Delta (deletion of residues 596-606) result in a nonfunctional envelope protein. Western blot analysis shows both mutants to be properly expressed but not processed to form gp120 and gp41, which explains their nonfunctionality. The presence of mutant gp160 on the cell surface, as well as their ability to bind to sCD4, suggests that the mutations have disrupted processing at the furin recognition site encoded within the gp120 conserved domain 5, without resulting in an overall misfolding of the protein. With respect to the furin recognition site, the mutations are sequentially distant, which implies that the gp41 disulfide loop is interacting with gp120 C5 in gp160. In addition, we have modeled the gp120-gp41 interaction in unprocessed precursor gp160 using structural data available for gp120 and gp41 domains in isolation, supplemented by mutagenesis data. We suggest that the mutations have altered the interaction between gp120 C5 and the gp41 disulfide loop, resulting in decreased accessibility of the furin recognition site and implying that the interaction between the gp120 C5 and gp41 loop is a conformational requirement for gp160 processing. The sensitivity of this interaction could be exploited in future antivirals designed to disrupt HIV pathogenesis by disrupting gp160 processing.     

Identification of epitopes recognized by monoclonal antibodies directed against HTLV-I envelope surface glycoprotein using peptide phage display

Summary Phage peptide libraries constitute powerful tools for the mapping of epitopes recognized by monoclonal antibodies (mAbs). Using screening of phage displayed random peptide libraries we have characterized the binding epitopes of three mAbs directed against the surface envelope glycoprotein (gp46) of the human T-cell leukemia virus type I (HTLV-I). Two phage libraries, displaying random heptapeptides with or without flanking cysteine residues, were screened for binding to mAbs 7G5D8, DB4 and 4F5F6. The SSSSTPL consensus sequence isolated from constrained heptapeptide library defines the epitope recognized by DB4 mAb and corresponds to the exact region 249–252 of the virus sequence. The APPMLPH consensus sequence isolated from non constrained heptapeptide library defines the epitope recognized by 7G5D8 mAb and corresponds to the region 187–193 with a single amino acid substitution, methionine to leucine at position 190. The third consensus sequence LYWPHD isolated from constrained heptapeptide library defines the epitope recognized by 4F5F6 mAb. It corresponds to an epitope without direct equivalence with the virus sequence. The data presented here showed that 7G5D8 and DB4 mAbs are raised against linear epitopes while 4F5F6 mAb recognized a continoous topographic epitope.     

Triazine Dyes Inhibit HIV-1 Entry by Binding to Envelope Glycoproteins

We have attempted to purify envelope (Env) glycoproteins of human immunodeficiency virus (HIV) from the culture supernatants of CHO-Sec cells that secreted truncated 140-kDa precursor and mature 120-kDa Env glycoproteins. The concentrated culture supernatants were applied to a column coupled with cibacron blue 3GA (CB3GA) to separate albumin from the Env proteins because CB3GA, a triazine dye, has been known to have a high affinity to albumin. Unexpectedly, Env proteins as well as albumin bound to the column, and the bound Env proteins were eluted by increasing the ionic strength using KC1. Gp120 was eluted at 0.5–0.9 m of KC1, while a higher concentration (0.9–1.5 m ) was necessary for the elution of gp140. The agarose gel coupled with reactive red 120 (RR120), another triazine dye with similar characteristics, also retained both Env proteins, and the bound Env proteins could be eluted in a similar manner. In addition, these agents inhibited syncytium formation caused by HTLV-III_B and HTLV-II_MN. Inhibition was also seen when a virus-free fusion assay between Env protein expressed in CHO cells and fluorescent labeled SupT1 cells were used. These findings indicate that triazine dyes bind to the functional regions of Env proteins of HIV-1 that play important role(s) for HIV infection.     

Helical peptide arrays for lead identification and interaction site mapping

Libraries composed of linear and cyclic peptides cannot fully represent the higher order structures of most antigenic sites. To map the binding site of ligands or antibodies, a larger part of the three-dimensional space should be sampled. Because parallel synthesis of large arrays of peptides on hydrogels is restricted to relatively small peptides, a simple and robust homodimeric helical system was chosen for antigen presentation. First, it was established in an heterodimeric system that the 26-mer peptide could be synthesized and that the helical coiled-coil peptides interact in the hydrogel in a predictable manner. Next, libraries of homodimeric coiled coils were synthesized into which the epitope was grafted. Using dedicated helical dimeric and trimeric coiled-coil libraries, the epitopes of two anti-HIV-1 gp41 monoclonal antibodies known to interact with helical structures were mapped at high resolution. These mappings precisely reflect existing X-ray data, and the arrays can be applied to lead identification, epitope mapping, and systematic analysis of amino acid contribution to coiled-coil systems.     

中国HIV-1流行毒株的DNA疫苗的初步研究

为研制针对我国ＨＩＶ－１流行毒株的艾滋病毒疫苗,构建了具有代表性的ｇａｇ和ｇｐ１２０核酸疫苗,进行了初步的小鼠免疫实验。结果初步显示：（１）免疫Ｂａｌｂ／Ｃ小鼠可以产生ＨＩＶ－１特异性的体液和细胞免疫;（２）ｇａｇ和ｇｐ１２０基因联合免疫可以同时诱发针对ｇａｇ和ｇｐ１２０的细胞和体液免疫反应,而且效果比各自单独免疫要好;（３）Ｂ亚型ｇｐ１２０基因免疫可以诱发识别Ｃ亚型ｇｐ１２０抗原的ＣＴＬ反应。本     

多糖化合物抗HIV活性及应用

多糖类化合物种类繁多 ,许多多糖化合物在体内或体外表现出良好的抗HIV活性 ,多糖能够作用于HIV复制周期的多个环节 ,影响tat、gp1 2 0、RT等多个病毒蛋白的功能。目前 ,已有多糖被用于杀微生物剂、抗病毒辅助治疗、抗机会性感染等临床研究中 ,多糖在临床上存在抗凝血活性、生物利用度低等问题 ,但丰富的多糖类化合物因其作用多效性仍有广阔的抗HIV应用前景。     

Structure‐antigenicity of the V3 region of SIVmac envelope glycoprotein

The objective of this study was to analyze the immunogenicity and antigenicity of the V3 domain (Cys313–Cys346) of the external envelope glycoprotein gp125 of SIVmac251. The corresponding peptide was synthesized and characterized as linear and cyclic peptides. Our results showed that this region, as for HIV‐1, contained an immunodominant epitope. The antigenicity was similar for the linear and cyclic peptides when tested against a panel of 15 sera from SIV infected macaques. Similarly, both peptide structures presented similar immunogenicity as shown by the characterization of the anti‐peptide antibodies produced in rabbits against the cyclic and linear forms. But, unexpectedly, the antibodies produced against linear peptides recognized with a relatively higher intensity the native envelope gp140 than those produced against the cyclic structure. Furthermore, we showed that these antibodies recognized better the deglycosylated form of the glycoprotein. But, in contrast to the neutralizing activity obtained with anti‐V3 peptides from HIV‐1, no antiviral activity was obtained with antibodies generated against linear or cyclic SIVmac V3 peptides. Copyright © 2009 European Peptide Society and John Wiley & Sons, Ltd.     

Optimization of peptidic HIV‐1 fusion inhibitor T20 by phage display

The HIV fusion inhibitor T20 has been approved to treat those living with HIV/AIDS, but treatment gives rise to resistant viruses. Using combinatorial phage‐displayed libraries, we applied a saturation scan approach to dissect the entire T20 sequence for binding to a prefusogenic five‐helix bundle (5HB) mimetic of HIV‐1 gp41. Our data set compares all possible amino acid substitutions at all positions, and affords a complete view of the complex molecular interactions governing the binding of T20 to 5HB. The scan of T20 revealed that 12 of its 36 positions were conserved for 5HB binding, which cluster into three epitopes: hydrophobic epitopes at the ends and a central dyad of hydrophilic residues. The scan also revealed that the T20 sequence was highly adaptable to mutations at most positions, demonstrating a striking structural plasticity that allows multiple amino acid substitutions at contact points to adapt to conformational changes, and also at noncontact points to fine‐tune the interface. Based on the scan result and structural knowledge of the gp41 fusion intermediate, a library was designed with tailored diversity at particular positions of T20 and was used to derive a variant (T20v1) that was found to be a highly effective inhibitor of infection by multiple HIV‐1 variants, including a common T20‐escape mutant. These findings show that the plasticity of the T20 functional sequence space can be exploited to develop variants that overcome resistance of HIV‐1 variants to T20 itself, and demonstrate the utility of saturation scanning for rapid epitope mapping and protein engineering.     

Recognition of defined epitopes by affinity‐purified anti‐immunoglobulin Fab autoantibodies isolated from HIV‐infected humans

Infection of humans with HIV‐1 has previously been independently shown to result in the generation of autoantibodies (AAbs) reactive with immunoglobulin Fab fragments (Heidelberg), and with autoantibodies to T‐cell receptors (TCRs) (Tucson). Here, we carry out epitope mapping studies of affinity‐purified AAbs to Fab fragments prepared from individual HIV‐positive patients for their capacity to bind recombinant constructs and peptide‐defined epitopes modeling TCR and Ig light chains. Some affinity‐purified autoantibodies reacted strongly with TCRs expressed by intact T‐cells, and recombinant V_α/V_β constructs as well as with certain synthetic peptide epitopes. The binding reactions of affinity‐purified AAbs of individual patients were distinct, and the AAb preparations consisted of populations of polyclonal lgs as reflected in specificity and isotype. AAb pools from individual patients all bound particular regions of TCR and Ig chains defined by comprehensive peptide synthesis including the CDR1 and Fr3 segments of the variable domains and the joining segment/switch peptide. In addition, other reactivities to restricted regions of α, β and λ light chains were documented. These results substantiate the cross‐reactivity of TCR and Ig–Fab determinants, and are consistent with the hypothesis that autoantibodies arising as a consequence of HIV infection can have an immunomodulatory role. Copyright © 1999 John Wiley & Sons, Ltd.     

HIV gp120 induced gene expression signatures in vaginal epithelial cells

Gp120 is the envelope protein of HIV which binds to CD4 independent proteins on vaginal epithelial cells. HIV-gp120 has been reported to modulate gene expression in several cell types. How this interaction may alter the physiologic vaginal milieu during the earliest stages of vaginal transmission of HIV, is currently unknown. Vaginal epithelial cells were treated with HIV-gp120, and a global snapshot of changes in gene expression profiles, were unraveled by microarray analysis. The differentially expressed genes were involved in diverse cellular functions. Genes of immunomodulatory processes and induction of proteases were highly enriched. We propose that the induction of inflammation and proteases may act in concert to weaken the vaginal epithelium, making it more permeable to viral entry. Identification of the gene signatures involved in vaginal-HIV dialogue would aid in understanding the environ induced by HIV itself, as the virus invades and gains entry into its host.     

Construction, expression, and analysis of recombinant HIV gp41 constructs containing a novel cellular binding domain

The gp41 polypeptide of human immunodeficiency virus (HIV) contains an immunosuppressive domain, an epitope which elicits specific cytolytic T cell responses to HIV, and a complement Clq interactive domain. In addition, a synthetic peptide called CS3, derived from gp41 (amino acids 576-593 of gp160) and contiguous with the major immunodominant domain, binds to cellular proteins and may be important in HIV entry/fusion. In order to further investigate the role of the CS3 region of gp41 in cellular binding and to investigate other properties of gp41, sufficient quantities of this polypeptide must be readily available. We have therefore cloned the region of the HIV genome between nucleotides 7891 and 8188 (corresponding to amino acids 541-639 of gp160) into a series of procaryotic expression vectors. The resulting clones express a recombinant polypeptide of gp41 (r41). Two of these recombinants, pMAL-cRl/r41 and pGEMEX-2/r41, expressed the highest and most consistent levels of r41 as judged by both sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and Western blot analysis. With the pMAL-cRl/r41 construct, r41 was expressed as a fusion to the maltose-binding protein (MBP) and, following purification by affinity chromatography, was cleaved from MBP by factor Xa protease digestion. MBP/r41 may be useful for studies of a reported gp41 cellular binding domain and may facilitate studies involving other functions ascribed to this region of gp41. (c) 1993 John Wiley & Sons, Inc.