Induction of apoptosis and endothelin-1 secretion in primary human lung endothelial cells by HIV-1 gp120 proteins

Pulmonary hypertension associated with human immunodeficiency virus (HIV) infection also involves injury to the lung endothelium. However, the pathogenesis of HIV-induced pulmonary hypertension is not known; we hypothesized that HIV or secreted viral proteins could play a role in vascular injury and the increased frequency of pulmonary hypertension observed in HIV-infected patients. Here, we report that exposure of HIV-1 gp120 proteins to primary human lung microvascular endothelial cells causes apoptosis, as assessed by TUNEL assay, Annexin-V staining, and DNA laddering. Using ribonuclease protection assay and Western blotting we find that gp120-induced apoptosis of lung endothelial cells involves a down-regulation in Bcl-xl mRNA and proteins. In addition, gp120 significantly increases secretion of the potent vasoconstrictor endothelin-1 by human lung endothelial cells. These data suggest that secreted HIV gp120 proteins induce lung endothelial cell injury and could contribute to the development of HIV-associated pulmonary hypertension.     

A recombinant allosteric lectin antagonist of HIV-1 envelope gp120 interactions

The first, critical stage of HIV-1 infection is fusion of viral and host cellular membranes initiated by a viral envelope glycoprotein gp120. We evaluated the potential to form a chimeric protein entry inhibitor that combines the action of two gp120-targeting molecules, an allosteric peptide inhibitor 12p1 and a higher affinity carbohydrate-binding protein cyanovirin (CVN). In initial mixing experiments, we demonstrated that the inhibitors do not interfere with each other and instead show functional synergy in inhibiting viral cell infection. Based on this, we created a chimera, termed L5, with 12p1 fused to the C-terminal domain of CVN through a linker of five penta-peptide repeats. L5 revealed the same broad specificity as CVN for gp120 from a variety of clades and tropisms. By comparison to CVN, the L5 chimera exhibited substantially increased inhibition of gp120 binding to receptor CD4, coreceptor surrogate mAb 17b and gp120 antibody F105. These binding inhibition effects by the chimera reflected both the high affinity of the CVN domain and the allosteric action of the 12p1 domain. The results open up the possibility to form high potency chimeras, as well as noncovalent mixtures, as leads for HIV-1 envelope antagonism that can overcome potency limits and potential virus mutational resistance for either 12p1 or CVN alone.     

人星形细胞HIV—1膜蛋白gp120新受体的免疫学鉴定

自1994年首次报导HIV－1外膜蛋白gp120与人胎儿星形细胞膜蛋白质位点（推测分子量为260kD,命名为PAG）结合以来[1],这项工作持续集中于研究该蛋白的功能与作用,本研究藉助杂交瘤技术建立了一系列不鼠抗人星形细胞PAG）的单克隆抗体,这些抗体成功的抑制了gp120与PAG的结合,抑制可达50％以上,并几乎完全阻断了gp120介导的由摄入所星表细胞风钙离子的升高,通过ELISA可证实抗体与星形细胞的特异反应,蛋白印迹和免疫沉淀试验结果表明PAG作为实体的存在,试验表明PAG对于gp120与星形细胞的结合,对于gp120个导的星形细胞摄入所致钙离子的升高均有决定性作用,许多方向报导和研究表明gp120可与多种细胞结合而导致HIV－1感染,由此推论PAG是HIV－1gp120在人星形细胞上的新受体,同时也可能对HIV－1脑病的治疗开辟一条崭新的途径,PAG是否为HIV－1感染人星形细胞的受体,仍有等进一步实验证明。     

The rescue by phage display of human fabs to gp120 HIV-1 glycoprotein using EBV transformed lymphocytes

Human hybridomas secreting monoclonal antibodies in a stable manner are difficult to develop. The main difficulties are the restricted techniques for B-cell immortalization, the low number of sensitized B cells in peripheral blood, and the impossibility, for ethical reasons, to immunize humans with most antigens. Phage display has proved to be a powerful method for the generation of recombinant antibody fragments. This technology relies on the construction of recombinant Fab or scFv libraries and their display on phage M13. In order to rescue unstable B-cell clones secreting human antibodies we set up a method for the selection by phage display of human IgG fragments from Epstein-Barr virus (EBV)-transformed clones and applied it to the selection by phage display of Fabs directed against HIV-1 gp120, using a seropositive blood sample. The approach combines B-cell transformation by EBV of peripheral blood lymphocytes from a seropositive donor, preselection of specific IgG anti-gp120 producing clones, and the construction of a targeted human antibody library. In this library the percentage of heavy and light chain coding sequences expressed in Escherichia coli, amplified by a set of specific 5′ primers for different antibody germ lines, was similar to that observed with the original untransformed B-cell sample. One round of panning was sufficient for the rescue of three Fabs specific for HIV-1 gp120 protein, which proves the efficiency of this technique.     

HIV-1 gp120对鼠海马长时程增强效应的影响

为了探讨人类免疫缺陷病毒Ⅰ型(HIV-1)的包膜糖蛋白gp120对鼠海马脑片CA1区的突触传递及可塑性的影响,应用离体脑片记录技术,记录大鼠海马CA1区的兴奋性突触后电位(excitatory postsynaptic potential,EPSP),研究了gp120对高频电刺激Schaffer侧支引起的鼠长时程增强效应(long-term potentiation,LTP)的影响.结果发现:gp120对大鼠海马CA1区LTP产生抑制作用,对其基础EPSP没有影响,而且这种抑制效应随着gp120浓度增大而增强,即具有剂量依赖性.PKA/PKC蛋白激酶抑制剂H7可以反转这种抑制效应.提示:gp120可能是通过抑制海马CA1区的LTP而参与艾滋病相关性痴呆(HIV-1 associated dementia,HAD)的形成.     

Characterization of antibody-dependent cellular cytotoxicity induced by the plasma from persons living with HIV-1 based on target cells with or without CD4 molecules

Antibody-dependent cellular cytotoxicity (ADCC) is essential for reducing the reservoir of latent virus in persons living with HIV-1 (PLWH). This study evaluated the plasma's ADCC activity from treatment-naïve PLWH based on target cells with or without CD4 molecules. We found that the distribution of plasma activities to mediate ADCC is different between 8E5 cells (CD4-) and NL4-3-infected CEM.NKR.CCR5 cells (CD4+). There was no correlation between the IgG-binding ability and ADCC activity. The binding ability of the 8E5 cells (2.2%) to A32 antibody was significantly lower than that of CEM.NKR.CCR5 cells (69.3%). After incubating the 8E5 cells with CD4-mimetic compound, it did not increase the binding ability with the A32 antibody. After incubation with CD4+ T cells, the binding ability of the 8E5 cells for the A32 antibody increased significantly, which implies that the conformation of the Env protein open and expose the CD4-induced epitopes. The effect of the ADCC in plasma directly applied to 8E5 cells was positively correlated with that of the NL4-3-infected CEM.NKR.CCR5 cells. In conclusion, ADCC induction in plasma was general in the treatment-naïve PLWH. The ADCC activity levels differed when target cells with or without CD4 molecules were evaluated; When designing experiments on ADCC, full consideration should be given to this immune phenomenon.     

Identification of putative, stable binding regions through flexibility analysis of HIV-1 gp120

The acquired-immunodeficiency syndrome has evolved into a major worldwide epidemic. Significant effort has been made in the development of antiviral therapies. A new strategy for vaccine and drug design that complements the existing cocktail therapy is to target entry of the human immunodeficiency virus (HIV). Such an approach provides the advantage of interfering with multiple intermediates in this multi-step process. The extraordinary conformational flexibility, glycosylation, and strain variations of viral glycoprotein gp120 cause general viral evasion of humoral immune response and thus complicate the development of an effective vaccine. Especially difficult to define are the conformation of gp120 before CD4 engagement as well as the relative orientations of the V1/V2 and V3 loops with respect to the inner and outer domains. In this study, we used Floppy Inclusion and Rigid Substructure Topography (FIRST), a program based on graph theory, to analyze the flexibility and rigidity of all known HIV-1 gp120 structures. A flexibility index is used to describe and compare the spatial distribution of protein flexibility and rigidity of these structures in isolation and in complex with CD4, CD4-mimics, and neutralizing antibodies. Using this flexibility analysis, we identified a universal rigid region (the alpha2 helix) as well as the consensus largest rigid cluster involving a beta-sheet located on the coreceptor binding face. Both of these regions may serve as stable targets for vaccine design and drug discovery. Detailed comparisons of the changes in flexibility based on strain variations, stabilizing mutations, binding features of CD4 mimics, and impact of b12 binding are reported.     

A Rationally Designed Synthetic Mimic of the Discontinuous CD4-Binding Site of HIV-1 gp120

Synthetic mimetics of the CD4-binding site of HIV-1 gp120 are promising candidates for HIV-1 entry inhibition, as well as immunogen candidates for the elicitation of virus-neutralizing antibodies. On the basis of the crystal structure of gp120 in complex with CD4, we have used a recently introduced strategy for the generation of structurally diverse scaffolds to design and synthesize a scaffolded peptide, in which three fragments, making up the sequentially discontinuous binding site of gp120 for CD4, are presented in a nonlinear and discontinuous fashion through a molecular scoffold, which restrains conformational flexibility. The affinities of this molecule to CD4, as well as to the broadly neutralizing antibody mAb b12, whose epitope overlaps the CD4-binding site of gp120, were determined in competitive binding assays.     

Glycosylation Patterns of HIV-1 gp120 Depend on the Type of Expressing Cells and Affect Antibody Recognition

Human immunodeficiency virus type 1 (HIV-1) entry is mediated by the interaction between a variably glycosylated envelope glycoprotein (gp120) and host-cell receptors. Approximately half of the molecular mass of gp120 is contributed by N-glycans, which serve as potential epitopes and may shield gp120 from immune recognition. The role of gp120 glycans in the host immune response to HIV-1 has not been comprehensively studied at the molecular level. We developed a new approach to characterize cell-specific gp120 glycosylation, the regulation of glycosylation, and the effect of variable glycosylation on antibody reactivity. A model oligomeric gp120 was expressed in different cell types, including cell lines that represent host-infected cells or cells used to produce gp120 for vaccination purposes. N-Glycosylation of gp120 varied, depending on the cell type used for its expression and the metabolic manipulation during expression. The resultant glycosylation included changes in the ratio of high-mannose to complex N-glycans, terminal decoration, and branching. Differential glycosylation of gp120 affected envelope recognition by polyclonal antibodies from the sera of HIV-1-infected subjects. These results indicate that gp120 glycans contribute to antibody reactivity and should be considered in HIV-1 vaccine design.     

Blocking interaction of viral gp120 and CD4-expressing T cells by single-stranded DNA aptamers

To investigate the potential clinical application of aptamers to prevention of HIV infection, single-stranded DNA (ssDNA) aptamers specific for CD4 were developed using the systematic evolution of ligands by exponential enrichment approach and next generation sequencing. In contrast to RNA-based aptamers, the developed ssDNA aptamers were stable in human serum up to 12 h. Cell binding assays revealed that the aptamers specifically targeted CD4-expressing cells with high binding affinity (K_d = 1.59 nM), a concentration within the range required for therapeutic application. Importantly, the aptamers selectively bound CD4 on human cells and disrupted the interaction of viral gp120 to CD4 receptors, which is a prerequisite step of HIV-1 infection. Functional studies showed that the aptamer polymers significantly blocked binding of viral gp120 to CD4-expressing cells by up to 70% inhibition. These findings provide a new approach to prevent HIV-1 transmission using oligonucleotide aptamers.     

Ability of CD8(+) T cell anti-feline immunodeficiency virus activity correlated with peripheral CD4(+) T cell counts and plasma viremia

In the host defense mechanism against feline immunodeficiency virus (FIV) infection, CD8(+) T cells specifically attack virus-infected cells and suppress the replication of the virus in a non-cytolytic manner by secreting soluble factors. In this study, we measured CD8(+) T cell anti-FIV activity in 30 FIV-infected cats. We investigated its relationship with the number of peripheral blood lymphocytes, particularly the CD4(+) T cell and CD8(+) T cell counts, and the relationship between anti-FIV activity and the number of T cells of CD8alpha(+)beta(lo) and CD8alpha(+)beta(-) phenotypes. A clearly significant correlation was observed between anti-FIV activity and the number of CD4(+) T cells. A weaker anti-FIV activity was associated with a greater decrease in the number of CD4(+) T cells. However, there was no significant correlation between anti-FIV activity and the number of B or CD8(+) T cells. Compared with SPF cats, FIV-infected cats had significantly higher CD8alpha(+)beta(lo) T cell and CD8alpha(+)beta(-) T cell counts, but, no significant correlation was observed between these cell counts and anti-FIV activity. This anti-FIV activity significantly correlated with plasma viremia, which was detected in cats with a weak anti-FIV activity. These results suggest that the anti-FIV activity of CD8(+) T cells plays an important role in plasma viremia and the maintenance of CD4(+) T cells in the body. It is unlikely that CD8alpha(+)beta(lo) or CD8alpha(+)beta(-) T cells appearing after FIV infection represent a phenotype of CD8(+) cells with anti-FIV activity.     

Linear epitope mapping of humoral responses induced by vaccination with recombinant HIV-1 envelope protein gp160

To enhance utility of the linear epitope mapping (Pepscan) technique for assay of humoral responses linked to vaccination, two modifications were tested. First, peptides were incubated with serum contained in baths rather than individual wells. Second, a rigorous statistical model was developed to determine which peptide/antibody-binding interactions were significant. The modifications increased the ability to detect signal in these experiments by 15- to 45-fold. These two modifications were applied to linear epitope mapping of HIV seropositive volunteers under treatment with recombinant HIV gp160 and also to rabbits immunized with the same product. Changes in fine specificity of response were observed in animal models and human vaccine recipients over the course of an immunization series with this antigen. Received 16 July 1996/ Accepted in revised form 09 April 1997     

共表达HIV-1中国流行株gp120与IL-18重组鸡痘病毒的构建及其免疫原性观察

为筛选我国的HIV-1疫苗候选株,以鸡痘病毒282E4中国疫苗株为载体,构建了共表达中国流行株HIV-1外膜蛋白gp120和IL-18的重组鸡痘病毒,并将该重组鸡痘病毒免疫BALB/c小鼠,检测免疫小鼠脾特异性CTL杀伤活性和血清抗体水平。结果显示,HIV_1外膜蛋白gp120和IL-18不但可在重组鸡痘病毒感染的鸡胚成纤维细胞中表达,而且可在重组鸡痘病毒感染的哺乳动物细胞中表达。重组病毒具有良好的免疫原性,可诱导小鼠产生特异性抗体和脾特异性CTL反应,且IL_18发挥了免疫佐剂的作用。本研究结果为制备安全、有效的HIV-1基因工程活载体疫苗奠定了基础。     

Conformational study of fragments of envelope proteins (gp120: 254-274 and gp41: 519-541) of HIV-1 by NMR and MD simulations.

The envelope proteins, gp 120 and gp41 of HIV-1, play a crucial role in receptor (CD4+ lymphocytes) binding and membrane fusion. The fragment 254-274 of gp120 is conserved in all strains of HIV and, as a part of the full gp120 protein, behaves as 'immunosilent', but as an individual fragment it is 'immunoreactive'. When this fragment binds to its receptor, it activates the fusion domain of gp41 allowing viral entry into the host CD4+ cells. The conformation of fragment 254-274 of the gp120 domain and fragment 519-541 of the gp41 domain was studied by NMR and MD simulations. The studies were carried out in three varied media--water, DMSO-d6 and hexafluoroacetone (HFA). The fusogenic nature of the gp41 domain peptide was investigated by 31P NMR experiments with model bilayers prepared from dimyristoyl-L-alpha-phosphatidylcholine (DMPC). The solvent was seen to exert a major effect on the structure of the two peptides. Fragment (254-274) of gp120 in DMSO-d6 had a type I beta-turn around the tetrad Val9-Ser10-Thr11-Gln12 while in HFA a helical structure spanning the region Ile5 to Gln12 was seen with the remaining part of the peptide in a random coil structure. It is possible that the beta-turn may constitute an initiation site for the formation of the helix. In water at pH 4.5, the peptide adopted a beta-sheet. The NMR results for fragment 519-541 of gp41 are conclusive of a beta-sheet structure in DMSO-d6, a conformation which may help in insertion into the membrane, a notion also put forward by others. The 31P NMR studies of DMPC vesicles with this fragment show its fusogenic nature, promoting fusion of unilamellar vesicles to larger agglomerates like multilamellar ones.     

Localization of the HIV-1 gp120 Conformational Epitope Recognized by Virus-Neutralizing Monoclonal Antibodies 2G12

A phage peptide library was used to select peptides interacting with virus-neutralizing monoclonal antibodies (mAb) 2G12 which recognize a discontinuous surface epitope of HIV-1 gp120. With the published X-ray data, gp120 regions involved in the antigenic determinant were predicted. Binding with mAb 2G12 was ascribed to Thr297, Phe383, Tyr384, Arg419, Ile240, Thr415, Leu416, Pro417, Lys421, and Trp112. Though distant in the gp120 sequence, these residues are close in space and form the 2G12 epitope on the gp120 surface.     

Dynamic domains and geometrical properties of HIV-1 gp120 during conformational changes induced by CD4 binding

The HIV-1 gp120 exterior envelope glycoprotein undergoes a series of conformational rearrangements while sequentially interacting with the receptor CD4 and coreceptor CCR5 or CXCR4 on the surface of host cells to initiate virus entry. Both the crystal structures of the HIV-1 gp120 core bound by the CD4 and antigen 17b, and the SIV gp120 core pre-bound by the CD4 are known. We have performed dynamic domain studies on the homology models of the CD4-bound and unliganded HIV-1 gp120 with modeled V3 and V4 loops to explore details of conformational changes, hinge axes, and hinge bending regions in the gp120 structures upon CD4 binding. Four dynamic domains were clustered and intricately motional modes for domain pairs were discovered. Together with the detailed comparative analyses of geometrical properties between the unliganded and liganded gp120 models, an induced fit model was proposed to explain events accompanying the CD4 engagement to the gp120, which provided new insight into the dynamics of the molecular induced binding mechanism that complements the molecular dynamics and crystallographic studies.     

HIV-1 coat glycoprotein gp120 induces apoptosis in rat brain neocortex by deranging the arachidonate cascade in favor of prostanoids

Human immunodeficiency virus type-1 coat glycoprotein gp 120 causes delayed programmed cell death (apoptosis) in rat brain neocortex. Here, we investigated the possible role of the arachidonate cascade and membrane peroxidation in this process. It is shown that gp 120 causes a rapid increase in the activity and expression of the arachidonate-metabolizing enzyme prostaglandin H synthase, paralleled by increased prostaglandin E(2) levels. The selective inhibitor of prostaglandin H synthase indomethacin inhibited enzyme activity, reduced prostaglandin E(2) content, and partially protected neocortex against gp 120-induced apoptosis. Conversely, the activity and expression of the arachidonate-metabolizing enzyme 5-lipoxygenase decreased upon gp 120 treatment, as well as the level of its product, leukotriene B(4). Treatment with gp 120 also reduced membrane lipid peroxidation, and this may be implicated in the execution of programmed cell death. These results suggest that early derangement of the arachidonate cascade in favor of prostanoids may be instrumental in the execution of delayed apoptosis in the brain neocortex of rats.     

Proteomic analysis of the cellular responses induced in uninfected immune cells by cell-expressed X4 HIV-1 envelope

HIV-1 envelope gp120 and gp41 glycoproteins (Env), expressed at the cell surface, induce uninfected CD4 T-cell death, but the molecular mechanisms leading to this demise are still largely unknown. To better understand these events, we analyzed by a proteomic approach the differential protein expression profile of two types of uninfected immune cells after their coculture for 1-3 days with cells that express, or not, Env. First, umbilical cord blood mononuclear cells (UCBMCs) were used to approach the in vivo situation, i.e., blood uninfected naive cells that encounter infected cells. Second, we used the A2.01/CD4.403 T-cell line expressing wild type CXCR4 and a truncated form of CD4 that still undergoes Env-mediated apoptosis, independently of CD4 signaling. After coculture with cells expressing Env, 35 and 39 proteins presenting an altered expression in UCBMCs and the A2.01/CD4.403 T-cell line, respectively, were identified by mass-spectrometry. Whatever the cell type analyzed, the majority of these proteins are involved in degradation processes, redox homeostasis, metabolism and cytoskeleton dynamics, and linked to mitochondrial functions. This study provides new insights into the events that sequentially occur in bystander T lymphocytes after contact with HIV-infected cells and leading, finally, to apoptotic cell death.     

Inhibition of HIV-1 infection by an intramolecular antisense peptide to T20 in gp160

Antisense amino acids are amino acids which can be translated from the corresponding anti-codons of a sense amino acid. Antisense peptides encoded by the noncoding DNA strand have a tendency to interact with each other. We have demonstrated that antisense peptide sequences are present intramolecularly, and these may contribute to the folding and maintenance of the tertiary structure of a protein. T20 is a synthetic peptide with an amino acid sequence in the gp41 of HIV-1 and has been demonstrated to be a potent inhibitor of HIV-1 infection. We searched for intramolecular peptide sequences which are antisense to portions of T20. A synthetic peptide (TA-1L) consisting of amino acids 84 to 97 of gp160, which contains an antisense peptide sequence (TA-1) to T20, was shown to inhibit HIV-1(IIIB) infection of MT-4 cells. Interaction of these antisense peptides could be involved in sustaining HIV-1 infectivity. The TA-1L site, which exists in the C1 domain of gp160, is highly homologous among strains of HIV-1, especially at TA-1 and in the amino acids flanking the C terminus. Although the TA-1 sites of 18 out of 30 HIV-1 strains were antisense to the T20 region, those of the remaining 12 strains, including HIV-1(MN), were not. However, TA-1L inhibited infection by HIV-1(MN), which has no antisense peptide in T20 corresponding to TA-1, although the inhibitory effect was weaker. TA-1L may thus also interfere with the gp160 interaction with CD4, which has an antisense sequence to TA-1.