Identification of the HIV-1 gp41 core-binding motif--HXXNPF

The HIV-1 gp41 core, a six-helix bundle formed between the N- and C-terminal heptad repeats, plays a critical role in fusion between the viral and target cell membranes. Using N36(L8)C34 as a model of the gp41 core to screen phage display peptide libraries, we identified a common motif, HXXNPF (X is any of the 20 natural amino acid residues). A selected positive phage clone L7.8 specifically bound to N36(L8)C34 and this binding could be blocked by a gp41 core-specific monoclonal antibody (NC-1). JCH-4, a peptide containing HXXNPF motif, effectively inhibited HIV-1 envelope glycoprotein-mediated syncytium-formation. The epitope of JCH-4 was proven to be linear and might locate in the NHR regions of the gp41 core. These data suggest that HXXNPF motif may be a gp41 core-binding sequence and HXXNPF motif-containing molecules can be used as probes for studying the role of the HIV-1 gp41 core in membrane fusion process.     

Conserved arginine residue in the membrane-spanning domain of HIV-1 gp41 is required for efficient membrane fusion

Despite the high mutation rate of HIV-1, the amino acid sequences of the membrane-spanning domain (MSD) of HIV-1 gp41 are well conserved. Arginine residues are rarely found in single membrane-spanning domains, yet an arginine residue, R⁶⁹⁶ (the numbering is based on that of HXB2), is highly conserved in HIV-1 gp41. To examine the role of R⁶⁹⁶, it was mutated to K, A, I, L, D, E, N, and Q. Most of these substitutions did not affect the expression, processing or surface distribution of the envelope protein (Env). However, a syncytia formation assay showed that the substitution of R⁶⁹⁶ with amino acid residues other than K, a naturally observed mutation in the gp41 MSD, decreased fusion activity. Substitution with hydrophobic amino acid residues (A, I, and L) resulted in a modest decrease, while substitution with D or E, potentially negatively-charged residues, almost abolished the syncytia formation. All the fusion-defective mutants showed slower kinetics with the cell-based dual split protein (DSP) assay that scores the degree of membrane fusion based on pore formation between fusing cells. Interestingly, the D and E substitutions did show some fusion activity in the DSP assays, suggesting that proteins containing D or E substitutions retained some fusion pore-forming capability. However, nascent pores failed to develop, due probably to impaired activity in the pore enlargement process. Our data show the importance of this conserved arginine residue for efficient membrane fusion.     

Identification of membrane-active regions of the HIV-1 envelope glycoprotein gp41 using a 15-mer gp41-peptide scan

The identification of membrane-active regions of the ectodomain of the HIV-1 envelope glycoprotein gp41 has been made by determining the effect on membrane integrity of a 15-mer gp41-derived peptide library. By monitoring the effect of this peptide library on membrane leakage, we have identified three regions on the gp41 ectodomain with membrane-interacting capabilities: Region 1, which would roughly correspond to the polar sequence which follows the fusion domain and extends to the N-terminal heptad repeat region; Region 2, which would correspond to the immunodominant loop; and Region 3, which would correspond to the pre-transmembrane region of gp41. The identification of these three regions supports their direct role in membrane fusion as well as facilitating the future development of HIV-1 entry inhibitors.     

双抗体夹心ELISA检测HIV-1 gp41抗原方法的建立

目的:建立检测HIV-1gp41抗原的双抗体夹心ELISA,并探讨其临床应用的可行性。方法:用饱和硫酸铵(SAS)纯化抗HIV-1gp41-5单克隆抗体(mAb),用HRP标记后建立双抗体夹心ELISA法,对其灵敏度及特异性进行检测,并用该方法对40份HIV-1阳性血清进行了检测。结果:用mAbE12(5μg/mL)为包被抗体,2H6为酶标记抗体(1∶900)建立了双抗体夹心ELISA法,检测gp41-5多肽的灵敏度是100pg/mL。对HIV-1阳性血清中gp41抗原的检出率为67.5%(27/40)。结论:建立了特异性强、灵敏度良好的检测HIV-1gp41抗原的双抗体夹心ELISA法。     

HIV-1 gp41的酵母表面展示及表达优化

以His标签检测蛋白的表达, 利用酿酒酵母表面展示系统, 成功地将HIV-1 gp41片段锚定在酵母表面, 并检测到gp41的活性。以pMD18T-gp41为模板, 通过PCR技术克隆了gp41基因, 将gp41基因通过双酶切连接到载体pICAS-His上,构建了gp41酵母表面展示载体, 并将其转化至酿酒酵母(Saccharomyces cerevisiae)MT8-1中。重组菌经培养, 利用免疫荧光染色方法进行染色, 显微镜观察发现重组酵母细胞表面有绿色荧光, 流式细胞仪结果进一步证实gp41正确折叠展示于酵母细胞表面。采用不同浓度的葡萄糖培养基进行表达优化。当葡萄糖浓度为1%时, 82.46%的酵母细胞表达了gp41抗原; 随着葡萄糖浓度升高, 蛋白表达受到抑制。     

HIV-1 gp41的酵母表面展示及表达优化

以His标签检测蛋白的表达, 利用酿酒酵母表面展示系统, 成功地将HIV-1 gp41片段锚定在酵母表面, 并检测到gp41的活性。以pMD18T-gp41为模板, 通过PCR技术克隆了gp41基因, 将gp41基因通过双酶切连接到载体pICAS-His上,构建了gp41酵母表面展示载体, 并将其转化至酿酒酵母(Saccharomyces cerevisiae)MT8-1中。重组菌经培养, 利用免疫荧光染色方法进行染色, 显微镜观察发现重组酵母细胞表面有绿色荧光, 流式细胞仪结果进一步证实gp41正确折叠展示于酵母细胞表面。采用不同浓度的葡萄糖培养基进行表达优化。当葡萄糖浓度为1%时, 82.46%的酵母细胞表达了gp41抗原; 随着葡萄糖浓度升高, 蛋白表达受到抑制。     

HIV-1 gp41 NC六螺旋的结构与功能研究

AIDS是严重危害人类健康的疾病,而HIV是导致这种疾病的病毒。gp41六螺旋在介导HIV-1病毒与靶细胞间的膜融合过程中起着重要作用。因此,对于gp41结合蛋白的研究有助于深入了解gp41在HIV-1感染整个过程中扮演的角色,解释gp41对靶细胞的调控机制,为寻找新的抗艾滋病药物靶点以及艾滋病抑制剂的设计提供有益的思路。作者的实验室相继发现了一批与gp41六螺旋结构相互作用的蛋白质,进而对HIV-1 gp41六螺旋介导的膜融合过程和HIV-1感染机理有了更深入的了解。     

Fast folding of the HIV-1 and SIV gp41 six-helix bundles

Human (HIV-1) and simian (SIV) immunodeficiency virus fusion with the host cell is promoted by the receptor-triggered refolding of the gp41 envelope protein into a stable trimer-of-hairpins structure that brings viral and cellular membranes into close proximity. The core of this hairpin structure is a six-helix bundle in which an inner homotrimeric coiled coil is buttressed by three antiparallel outer HR2 helices. We have used stopped-flow circular dichroism spectroscopy to characterize the unfolding and refolding kinetics of the six-helix bundle using the HIV-1 and SIV N34(L6)C28 polypeptides. In each case, the time-course of ellipticity changes in refolding experiments is well described by a simple two-state model involving the native trimer and the unfolded monomers. The unfolding free energy of the HIV-1 and SIV trimers and their urea dependence calculated from kinetic data are in very good agreement with data measured directly by isothermal unfolding experiments. Thus, formation of the gp41 six-helix bundle structure involves no detectable population of stable, partly folded intermediates. Folding of HIV-1 N34(L6)C28 is five orders of magnitudes faster than folding of its SIV counterpart in aqueous buffer: k(on),(HIV-1)=1.3 x 10(15)M(-2)s(-1) versus k(on),(SIV)=1.1 x 10(10)M(-2)s(-1). The unfolding rates are similar: k(off),(HIV-1)=1.1 x 10(-5)s(-1) versus k(off),(SIV=)5.7 x 10(-4)s(-1). Kinetic m-values indicate that the transition state for folding of the HIV-1 protein is significantly more compact than the transition state of the SIV protein. Replacement of a single SIV threonine by isoleucine corresponding to position 573 in the HIV-1 sequence significantly stabilizes the protein and renders the folding rate close to that of the HIV-1 protein yet without making the transition state of the mutant as compact as that of the HIV-1 protein. Therefore, the overall reduction of surface exposure in the high-energy transition state seems not to account for different folding rates. While the available biological evidence suggests that refolding of the gp41 protein is slow, our study implies that structural elements outside the trimer-of-hairpins limit the rate of HIV-1 fusion kinetics.     

HIV-1跨膜蛋白gp41与N-取代吡咯衍生物的结合模式研究

采用分子对接,分子动力学(MD)模拟和分子力学/泊松-波尔兹曼溶剂可有面积方法与分子力学/广义伯恩溶剂可及面积方法(MM-PBSA/MM-GBSA),预测两种N-取代吡咯衍生物与HIV-1 跨膜蛋白gp41疏水口袋的结合模式与作用机理．分子对接采用多种受体构象,并从结果中选取几种可能的结合模式进行MD 模拟,然后通过MM-PBSA计算结合能的方法识别最优的结合模式. MM-PBSA计算结果表明,范德华相互作用是结合的主要驱动力,而极性相互作用决定了配体在结合过程中的取向．进一步的结合能分解显示,配体的羧基与gp41残基Arg579的静电相互作用对结合有重要贡献．上述工作为进一步优化N-取代吡咯衍生物类的HIV-1融合抑制剂建立了良好的理论基础．     

A Fusion Intermediate gp41 Immunogen Elicits Neutralizing Antibodies to HIV-1

The membrane-proximal external region (MPER) of the human immunodeficiency virus, type 1 (HIV-1) envelope glycoprotein subunit gp41 is targeted by potent broadly neutralizing antibodies 2F5, 4E10, and 10E8. These antibodies recognize linear epitopes and have been suggested to target the fusion intermediate conformation of gp41 that bridges viral and cellular membranes. Anti-MPER antibodies exert different degrees of membrane interaction, which is considered to be the limiting factor for the generation of such antibodies by immunization. Here we characterize a fusion intermediate conformation of gp41 (gp41_int-Cys) and show that it folds into an elongated ∼12-nm-long extended structure based on small angle x-ray scattering data. Gp41_int-Cys was covalently linked to liposomes via its C-terminal cysteine and used as immunogen. The gp41_int-Cys proteoliposomes were administered alone or in prime-boost regimen with trimeric envelope gp140_CA018 in guinea pigs and elicited high anti-gp41 IgG titers. The sera interacted with a peptide spanning the MPER region, demonstrated competition with broadly neutralizing antibodies 2F5 and 4E10, and exerted modest lipid binding, indicating the presence of MPER-specific antibodies. Although the neutralization potency generated solely by gp140_CA018 was higher than that induced by gp41_int-Cys, the majority of animals immunized with gp41_int-Cys proteoliposomes induced modest breadth and potency in neutralizing tier 1 pseudoviruses and replication-competent simian/human immunodeficiency viruses in the TZM-bl assay as well as responses against tier 2 HIV-1 in the A3R5 neutralization assay. Our data thus demonstrate that liposomal gp41 MPER formulation can induce neutralization activity, and the strategy serves to improve breadth and potency of such antibodies by improved vaccination protocols.     

Identification of interaction between HIV-1 glycoprotein 41 and integrase

Human immunodeficiency virus-1(HIV-1) encodes 15 viral proteins. Protein-protein interactions play a large role in the function of these proteins. In this study, we attempted to identify novel interactions between the HIV-1 proteins to better understand the role played by viral protein-protein interactions in the life cycle of HIV-1. Genes encoding the 15 viral proteins from the HIV-1 strain AD8 were inserted into the plasmids of a yeast two-hybrid system. By screening 120 pairs of proteins, interactions between seven pairs were found. This led to the discovery of an interaction between the HIV-1 proteins integrase(IN) and glycoprotein 41(gp41), which was confirmed by both co-immunoprecipitation(Co-IP) assays and fluorescence resonance energy transfer(FRET)imaging in live cells. In addition, it was found that the amino acids at positions 76–100 of gp41 are required for it to bind to IN. Deletion of this region from gp41 prevented its interaction with IN and reduced the production of HIV-1 in 293 T cells. This study provides new information on HIV-1protein-protein interactions which improves the understanding of the biological functions of gp41 and IN during the virus life cycle.     

HIV-1 infection: Functional competition between gp41 and interleukin-2

To determine whether the gp41 of HIV-1 could adhere to the interleukin (IL)-2 receptor at the surface of target cells in vitro, we analysed in vitro the possible functional competition between various forms of the HIV-1 gp41 molecule (i.e. peptides, trimeric or primary structures) and IL-2. This competition has been analysed in a test involving the proliferation of an IL-2-dependent cell line (CTLL2). The putative interaction between the IL-2 molecule and HIV-1 has also been assayed on MT4 cells (CD4⁺ T lymphocytes) in culture. The gp41 trimeric molecule and an HIV-1 gp41 peptide (578–590 aminoacid sequence) dramatically inhibited CTLL2 cell proliferation, despite the presence of IL-2. The addition of serum, containing anti-gp41 antibodies, from HIV-1 patients resulted in a significant abolition of this inhibition. The concomitant incubation of IL-2 and HIV-1 with MT4 cells resulted in a strong decrease (70%) in HIV-1 p24 release. These data suggest that the gp41 of HIV-1 can use the IL-2 receptor during the process of HIV-1 infection and that there is some functional mimesis between gp41 and IL-2.     

HIV-1包膜蛋白gp41优势抗原的构建及可溶性表达

目的:筛选1型人免疫缺陷病毒(HIV-1)中国流行株中包膜蛋白gp41的优势抗原片段,构建具有区域流行代表性的HIV-1 gp41重组抗原,为改进现有HIV-1初筛试剂盒中使用的同类抗原奠定基础。方法:利用免疫斑点杂交和生物信息学方法,从收集自重庆、广州、上海的区域代表性150份HIV-1感染者血清标本中筛选gp41抗原性强的候选样本,利用RT-PCR及巢式PCR方法扩增包含重要抗原表位决定蔟的gp41基因片段,与原核表达载体pQE30连接,转化大肠杆菌M15构建gp41重组抗原表达菌株,表达后经亲和层析纯化、SDS-PAGE和Western印迹鉴定。结果:兔源HRP标记的gp41多抗能识别标本中gp41抗原性差异,得到候选样本,扩增包含gp41主要抗原表位片段;构建了包含gp41抗原表达簇的重组原核表达质粒,表达、纯化后经His标签抗体Western印迹鉴定为阳性。结论:高纯度的重组优势gp41抗原的构建和鉴定,为进一步改进现有HIV初筛诊断奠定了基础。     

Affinity maturation and characterization of a human monoclonal antibody against HIV-1 gp41

The human D5 monoclonal antibody binds to the highly conserved hydrophobic pocket on the N-terminal heptad repeat (NHR) trimer of HIV-1 gp41 and exhibits modest yet relatively broad neutralization activity. Both binding and neutralization depend on residues in the complementarity determining regions (CDRs) of the D5 IgG variable domains on heavy chain (VH) and light chain (VL). In an effort to increase neutralization activity to a wider range of HIV-1 strains, we have affinity matured the parental D5 scFv by randomizing selected residues in 5 of its 6 CDRs. The resulting scFv variants derived from four different CDR changes showed enhanced binding affinities to gp41 NHR mimetic (5-helix) which correlated to improved neutralization potencies by up to 8-fold. However, when converted to IgG1s, these D5 variants had up to a 12-fold reduction in neutralization potency over their corresponding scFvs despite their slightly enhanced in vitro binding affinities. Remarkably, D5 variant IgG1s bearing residue changes in CDRs that interact with epitope residues N-terminal to the hydrophobic pocket (such as VH CDR3 and VL CDR3) retained more neutralization potency than those containing residue changes in pocket-interacting CDRs (such as VH CDR2). These results provide compelling evidence for the existence of a steric block to an IgG that extends to the gp41 NHR hydrophobic pocket region, and can be a useful guide for developing therapeutic antibodies and vaccines circumventing this block.     

Design,synthesis and activity evaluation of novel peptide fusion inhibitors targeting HIV-1 gp41

Human immunodeficiency virus type 1 (HIV-1), the pathogen of acquired immunodeficiency syndrome (AIDS), causes about 2 million people to death every year. Fusion inhibitors targeted the envelope protein (gp41) represent a novel and alternative approach for anti-AIDS therapy, which terminates the HIV-1 life cycle at an early stage. Using CP621-652 as a template, a series of peptides were designed, synthesized and evaluated in vitro assays. An interesting phenomenon was found that the substitution of hydrophobic residues at solvent accessible sites could increase the anti-HIV activity when the C-terminal sequence was extended with an enough numbers of amino acids. After the active peptides was synthesized and evaluated, peptide 8 showed the best anti-HIV-1 IIIB whole cell activity (MAGI IC₅₀ = 53.02 nM). Further study indicated that peptide 8 bound with the gp41 NHR helix, and then blocked the conformation of 6-helix, thus inhibited virus–cell membrane fusion. The results would be helpful for the design of peptide fusion inhibitors against HIV-1 infection.     

Computational study of bindings of HL9, a nonapeptide fragment of human lysozyme, to HIV-1 fusion protein gp41

HL9 is a nonapeptide fragment of human lysozyme which has been shown to have anti-HIV-1 activity in nanomolar concentration. This study aims to explain this inhibitory activity by using molecular dynamics (MD) simulation, focusing on the ectodomain of gp41, the envelope glycoprotein of HIV-1 crucial to membrane fusion. It was found that in HL9, two Trp residues separated by two others occupy the conserved hydrophobic pocket on gp41 and thus inhibit fusion in dominant-negative manner. Detailed HL9-gp41 binding interactions and free energies of binding were obtained through MD simulation and solvated interaction energies (SIE) calculation, giving a binding free energy of −8.25 kcal/mol which is in close agreement with the experimental value of −9.96 kcal/mol. Since C-helical region (C34) of gp41 also has two Trp residues separated by two others, this arrangement may be generalised and used to scan peptide library and to find those having similar manner of inhibition.     

The dominant-negative action of a fusion protein containing the cytoplasmic domain of human immunodeficiency virus type 1 transmembrane protein gp41 in virus replication

We previously described a novel mode of downregulation of human immunodeficiency virus type 1 (HIV-1) Gag expression by a cytoplasmic domain fusion protein of the envelope (Env) transmembrane protein, β-galactosidase (β-gal)/706–856, which contains the cytoplasmic tail of gp41 fused at the C terminus of Escherichia coli β-gal. In the present study, we showed that this mediator conferred a dose-dependent dominant interference with virus infectivity. In the context of an HIV-1 provirus, this inhibitor downregulated steady-state Env expression. Paradoxically, Env overexpression suppressed β-gal/706–856-mediatd Gag downregulation. Sucrose gradient ultracentrifugation and confocal microscopy revealed that Gag, Env, and β-gal/706–856 had stable interactions and formed aggregated complexes in perinuclear regions. Moreover, Env overexpression hindered colocalization of Gag with β-gal/706–856 in the perinuclear region. Further cytoplasmic domain mapping analyses showed a correlation between the ability of cytoplasmic subdomains to downregulate Gag expression and the ability of these subdomains to stably interact with Gag. These studies show that redirection of Gag from its cytoplasmic synthesis site to a perinuclear compartment is a prerequisite for β-gal/706–856-mediated Gag downregulation. The results also illustrate that the dynamic interplay among Gag, Env, and β-gal/706–856 can modulate Gag and Env expression, thus controlling HIV-1 infection.     

Characterization of monoclonal antibodies to human immunodefiency virus type 1 gp41 by HIV-1 polypeptides expressed in Escherichia coli

Abstract Two monoclonal antibodies (MAbs) were produced in Balb/c mice by immunization with recombinant gp41 derived from expression of λ-BH10 cDNA of the human immunowdeficiency virus-1 (HIV-1) in the prokaryotic expression vector pEX-41 [1, 2]. Characterization of the epitopes recognized by these MAbs was done with HIV-1 envelope (env) fusion proteins expressed in Escherochia coli encoding ten distinct segments of the env proteins [3]. In comparison, another mouse MAb, M25 [4], a human MAb directed against gp41, which was produced by the xeno hydridoma line 3D6 [5, 6] and a pool of human patient sera containing antibodies to HIV-1 were tested. We were able to demonstrate that the epitopes recognized by our MAbs are located betweeni arg732 and ser759 [7] of the HIV-1 env glycoprotein gp160 of HTLV-III strain B. M25 reacted with epitopes between ser647 and pro731, which includes the hydrophobic transmembrane region of gp41 [4]. The human MAb against gp41, 3D6 [5, 6] reacts with epitopes between ile474 and trp646, a polypeptide stretch consisting of gp120 and gp41 specific amino acids. The human serum pool, positive for HIV-1 antibodies, reacted predominantly with antigenic determinants locatedp between ile474 and leu863. The recombinant env fusion proteins were initially produced to test the immunoreactivity with patient sera and to characterize epitopes which are relevant for immunodiagnostic purposes [3]. In this study, we showed that the set of recombinant evr proteins is also a simple and accurate tool for the characterization of MAbs directed to the HIV envelope proteins.     

Characterization and HIV-1 fusion inhibitory properties of monoclonal Fabs obtained from a human non-immune phage library selected against diverse epitopes of the ectodomain of HIV-1 gp41

Using a human non-immune phage library comprising more than 10(9) functional human antibody specificities in Fab format, we have been able to select a set of eight monoclonal Fabs targeted against diverse epitopes of the ectodomain of gp41 from HIV-1. The antigens used for panning the antibodies comprised two soluble, disulfide-linked, trimeric polypeptides derived from gp41, N(CCG)-gp41 and N35(CCG)-N13. The former comprises an exposed trimeric coiled-coil of the N-helices of gp41 fused in helical phase to the minimal thermostable ectodomain of gp41, while the latter comprises only the trimeric coiled-coil of N-helices. The selected Fabs were probed by Western blot analysis against four antigens: N(CCG)-gp41, N35CCG-N13, N34CCG (a smaller version of N35CCG-N13), and the minimal thermostable ectodomain core of gp41 in its six-helix bundle conformation (6-HB). Three classes of Fabs were found: class A (two Fabs) interact predominantly with the 6-HB; class B (four Fabs) interact with both the 6-HB and the internal trimeric coiled-coil of N-helices; and class C (two Fabs) interact specifically with the internal trimeric coiled-coil of N-helices. The IC50 values for the Fabs, expressed as bivalent mini-antibodies, ranged from 6 microg/ml to 60 microg/ml in a quantitative vaccinia virus-based reporter gene assay for HIV-1 envelope-mediated cell fusion using the envelope from the HIV-1 T tropic strain LAV. The two most potent fusion inhibitors belonged to class B. This panel of Fabs provides a set of useful probes for studying HIV-1 envelope-mediated cell fusion and may serve as a basis for developing Fab-based anti-HIV-1 therapeutics.     

F(ab′)2 fragment of a gp41 NHR-trimer-induced IgM monoclonal antibody neutralizes HIV-1 infection and blocks viral fusion by targeting the conserved gp41 pocket

Using a recombinant protein N46FdFc that mimics the HIV-1 gp41 N-helix trimer to immunize mice, we identified the first IgM monoclonal antibody 18D3 that specifically bound to the conserved gp41 pocket. Its F(ab′)₂ fragment potently inhibited HIV-1 Env-mediated cell–cell fusion and neutralized infection by laboratory-adapted and primary HIV-1 isolates with different subtypes and tropism, including the T20-resistant variants. This F(ab′)₂ fragment can be used to develop a bispecific broad neutralizing monoclonal antibody or HIV-1 inactivator as a novel immunotherapeutic for treatment and prevention of HIV-1 infection.