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1
Archibald, David W., Carla A. Hebert, Kevin L. Gregory, and George K. Lewis. "Effects of Human Salivas on Recombinant HIV-1 Proteins." Critical Reviews in Oral Biology & Medicine 4, no. 3 (April 1993): 475–78. http://dx.doi.org/10.1177/10454411930040033101.
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Human saliva appears to contain factors that are inhibitory to HIV-1 infectivity in vitro. We investigated the effect of incubating human whole, parotid, labial minor salivary gland and sublingual/submandibular salivas with recombinant HIV-1 envelope protein (gpl60). Saliva/gpl60 mixtures were run on polyacrylamide gels, transferred to nitrocellulose, and assayed for the presence of gp 160 using monoclonal antibodies or HIV-1-positive sera. Incubation of the gp 160 with whole saliva reduced the intensity of gp 160 bands to 35% of control values. Minor salivary gland saliva reduced the band intensities to 65% of control values, while other saliva types diminished gp160 to 75% of control values. Protease inhibitors had no effect. Components of untreated whole human saliva prevent the detection of the HIV-1 envelope protein gp 160 by antibodies to gp120 and gp41 in immunoblots. The results suggest that complexes between whole saliva factors and certain domains of gp160 block monoclonal antibody binding or are unable to migrate through polyacrylamide gels.
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Khattar, Sunil K., Anthony L. DeVico, Celia C. LaBranche, Aruna Panda, David C. Montefiori, and Siba K. Samal. "Enhanced Immune Responses to HIV-1 Envelope Elicited by a Vaccine Regimen Consisting of Priming with Newcastle Disease Virus Expressing HIV gp160 and Boosting with gp120 and SOSIP gp140 Proteins." Journal of Virology 90, no. 3 (November 18, 2015): 1682–86. http://dx.doi.org/10.1128/jvi.02847-15.
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Newcastle disease virus (NDV) expressing HIV-1 BaL gp160 was evaluated either alone or with monomeric BaL gp120 and BaL SOSIP gp140 protein in a prime-boost combination in guinea pigs to enhance envelope (Env)-specific humoral and mucosal immune responses. We showed that a regimen consisting of an NDV prime followed by a protein boost elicited stronger serum and mucosal Th-1-biased IgG responses and neutralizing antibody responses than NDV-only immunizations. Additionally, these responses were higher after the gp120 than after the SOSIP gp140 protein boost.
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McKenna, Philip M., Roger J. Pomerantz, Bernhard Dietzschold, James P. McGettigan, and Matthias J. Schnell. "Covalently Linked Human Immunodeficiency Virus Type 1 gp120/gp41 Is Stably Anchored in Rhabdovirus Particles and Exposes Critical Neutralizing Epitopes." Journal of Virology 77, no. 23 (December 1, 2003): 12782–94. http://dx.doi.org/10.1128/jvi.77.23.12782-12794.2003.
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ABSTRACT Rabies virus (RV) vaccine strain-based vectors show significant promise as potential live-attenuated vaccines against human immunodeficiency virus type 1 (HIV-1). Here we describe a new RV construct that will also likely have applications as a live-attenuated or killed-particle immunogen. We have created a RV containing a chimeric HIV-1 Env protein, which contains introduced cysteine residues that give rise to an intermolecular disulfide bridge between gp120 and the ectodomain of gp41. This covalently linked gp140 (gp140 SOS) is fused in frame to the cytoplasmic domain of RV G glycoprotein and is efficiently incorporated into the RV virion. On the HIV-1 virion, the gp120 and gp41 moieties are noncovalently associated, which leads to extensive shedding of gp120 from virions and virus-infected cells. The ability to use HIV-1 particles as purified, inactivated immunogens has been confounded by the loss of gp120 during preparation. Additionally, monomeric gp120 and uncleaved gp160 molecules have been shown to be poor antigenic representations of virion-associated gp160. Because the gp120 and gp41 portions are covalently attached in the gp140 SOS molecule, the protein is maintained on the surface of the RV virion throughout purification. Surface immunostaining and fluorescence-activated cell sorting analysis with anti-envelope antibodies show that the gp140 SOS protein is stably expressed on the surface of infected cells and maintains CD4 binding capabilities. Furthermore, Western blot and immunoprecipitation experiments with infected-cell lysates and purified virions show that a panel of neutralizing anti-envelope antibodies efficiently recognize the gp140 SOS protein. The antigenic properties of this recombinant RV particle containing covalently attached Env, as well as the ability to present Env in a membrane-bound form, suggest that this approach could be a useful component of a HIV-1 vaccine strategy.
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Ivey-Hoyle, M., and M. Rosenberg. "Rev-dependent expression of human immunodeficiency virus type 1 gp160 in Drosophila melanogaster cells." Molecular and Cellular Biology 10, no. 12 (December 1990): 6152–59. http://dx.doi.org/10.1128/mcb.10.12.6152.
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Expression of the human immunodeficiency virus (HIV) structural proteins in mammalian cells is regulated posttranscriptionally by the viral Rev protein. Rev has been shown to trans-activate expression by relieving the nuclear sequestration of RNAs containing viral gag or env coding regions. We have studied the effects of Rev on expression of the HIV type 1 env gene in Drosophila melanogaster cells. We demonstrated that synthesis of the gp160 envelope protein was fully Rev dependent; that is, gp160 was produced only when Rev function was coexpressed in the cell. Analysis of total cellular RNA indicated that Rev did not significantly affect the overall levels of gp160 RNA production. Instead, mRNA encoding gp160 was found in the cytoplasm only in cells expressing Rev, whereas in cells lacking Rev, this RNA was present only in the nucleus. Furthermore, comparison of these results with the previously demonstrated Rev-independent expression of gp120 envelope protein with this system indicated that information contained in the gp41 coding region appears to be critical to the selective nuclear retention of gp160 transcripts in the absence of Rev. Our results clearly demonstrate that the mechanism of Rev action is conserved in the insect cell system, and, thus, Rev must function via cellular machinery common to most, if not all, higher cell systems.
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Ivey-Hoyle, M., and M. Rosenberg. "Rev-dependent expression of human immunodeficiency virus type 1 gp160 in Drosophila melanogaster cells." Molecular and Cellular Biology 10, no. 12 (December 1990): 6152–59. http://dx.doi.org/10.1128/mcb.10.12.6152-6159.1990.
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Expression of the human immunodeficiency virus (HIV) structural proteins in mammalian cells is regulated posttranscriptionally by the viral Rev protein. Rev has been shown to trans-activate expression by relieving the nuclear sequestration of RNAs containing viral gag or env coding regions. We have studied the effects of Rev on expression of the HIV type 1 env gene in Drosophila melanogaster cells. We demonstrated that synthesis of the gp160 envelope protein was fully Rev dependent; that is, gp160 was produced only when Rev function was coexpressed in the cell. Analysis of total cellular RNA indicated that Rev did not significantly affect the overall levels of gp160 RNA production. Instead, mRNA encoding gp160 was found in the cytoplasm only in cells expressing Rev, whereas in cells lacking Rev, this RNA was present only in the nucleus. Furthermore, comparison of these results with the previously demonstrated Rev-independent expression of gp120 envelope protein with this system indicated that information contained in the gp41 coding region appears to be critical to the selective nuclear retention of gp160 transcripts in the absence of Rev. Our results clearly demonstrate that the mechanism of Rev action is conserved in the insect cell system, and, thus, Rev must function via cellular machinery common to most, if not all, higher cell systems.
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Tamma, Seetha M. Lakshmi, Narendra Chirmule, Hirosuka Yagura, Naoki Oyaizu, Vaniambadi Kalyanaraman, and Savita Pahwa. "CD4 Cross-Linking (CD4XL) Induces RAS Activation and Tumor Necrosis Factor-α Secretion in CD4+ T Cells." Blood 90, no. 4 (August 15, 1997): 1588–93. http://dx.doi.org/10.1182/blood.v90.4.1588.
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Abstract CD4 molecules are the primary receptors for human immunodeficiency virus (HIV) and bind the envelope glycoprotein gp120 of HIV with high-affinity. We have previously shown that cross-linking of CD4 molecules (CD4XL) in normal peripheral blood mononuclear cells (PBMC) results in secretion of cytokines tumor necrosis factor-α (TNF-α) and interferon-γ (IFN-γ), but not of interleukin-2 (IL-2) or IL-4. To investigate the intracellular signaling events associated with CD4-gp120 interaction, we incubated CD4+ T cells from peripheral blood of HIV-negative healthy donors with HIV envelope protein gp160 alone or performed CD4XL with gp160 and anti-gp160 antibody. This procedure resulted in tyrosine phosphorylation of intracellular substrates p59fyn, zap 70, and p95vav and also led to ras activation, as assessed by conversion of rasGDP to rasGTP. The role of ras in CD4 signaling was further investigated using CD4+ Jurkat cells transfected with a dominant negative ras mutant. CD4+ T cells expressing dn-ras secreted significantly reduced levels of TNF-α in response to CD4XL. These studies indicate that interaction of HIV gp160 with CD4 molecules activates the ras pathway in T cells, which may result in the cells becoming unresponsive to subsequent stimulation.
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Tamma, Seetha M. Lakshmi, Narendra Chirmule, Hirosuka Yagura, Naoki Oyaizu, Vaniambadi Kalyanaraman, and Savita Pahwa. "CD4 Cross-Linking (CD4XL) Induces RAS Activation and Tumor Necrosis Factor-α Secretion in CD4+ T Cells." Blood 90, no. 4 (August 15, 1997): 1588–93. http://dx.doi.org/10.1182/blood.v90.4.1588.1588_1588_1593.
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CD4 molecules are the primary receptors for human immunodeficiency virus (HIV) and bind the envelope glycoprotein gp120 of HIV with high-affinity. We have previously shown that cross-linking of CD4 molecules (CD4XL) in normal peripheral blood mononuclear cells (PBMC) results in secretion of cytokines tumor necrosis factor-α (TNF-α) and interferon-γ (IFN-γ), but not of interleukin-2 (IL-2) or IL-4. To investigate the intracellular signaling events associated with CD4-gp120 interaction, we incubated CD4+ T cells from peripheral blood of HIV-negative healthy donors with HIV envelope protein gp160 alone or performed CD4XL with gp160 and anti-gp160 antibody. This procedure resulted in tyrosine phosphorylation of intracellular substrates p59fyn, zap 70, and p95vav and also led to ras activation, as assessed by conversion of rasGDP to rasGTP. The role of ras in CD4 signaling was further investigated using CD4+ Jurkat cells transfected with a dominant negative ras mutant. CD4+ T cells expressing dn-ras secreted significantly reduced levels of TNF-α in response to CD4XL. These studies indicate that interaction of HIV gp160 with CD4 molecules activates the ras pathway in T cells, which may result in the cells becoming unresponsive to subsequent stimulation.
8
Lin, P. F., H. Samanta, C. M. Bechtold, C. A. Deminie, A. K. Patick, M. Alam, K. Riccardi, R. E. Rose, R. J. White, and R. J. Colonno. "Characterization of siamycin I, a human immunodeficiency virus fusion inhibitor." Antimicrobial Agents and Chemotherapy 40, no. 1 (January 1996): 133–38. http://dx.doi.org/10.1128/aac.40.1.133.
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The human immunodeficiency virus (HIV) fusion inhibitor siamycin I, a 21-residue tricyclic peptide, was identified from a Streptomyces culture by using a cell fusion assay involving cocultivation of HeLa-CD4+ cells and monkey kidney (BSC-1) cells expressing the HIV envelope gp160. Siamycin I is effective against acute HIV type 1 (HIV-1) and HIV-2 infections, with 50% effective doses ranging from 0.05 to 5.7 microM, and the concentration resulting in a 50% decrease in cell viability in the absence of viral infection is 150 microM in CEM-SS cells. Siamycin I inhibits fusion between C8166 cells and CEM-SS cells chronically infected with HIV (50% effective dose of 0.08 microM) but has no effect on Sendai virus-induced fusion or murine myoblast fusion. Siamycin I does not inhibit gp120 binding to CD4 in either gp120- or CD4-based capture enzyme-linked immunosorbent assays. Inhibition of HIV-induced fusion by this compound is reversible, suggesting that siamycin I binds noncovalently. An HIV-1 resistant variant was selected by in vitro passage of virus in the presence of increasing concentrations of siamycin I. Drug susceptibility studies on a chimeric virus containing the envelope gene from the siamycin I-resistant variant indicate that resistance maps to the gp160 gene. Envelope-deficient HIV complemented with gp160 from siamycin I-resistant HIV also displayed a resistant phenotype upon infection of HeLa-CD4-LTR-beta-gal cells. A comparison of the DNA sequences of the envelope genes from the resistant and parent viruses revealed a total of six amino acid changes. Together these results indicate that siamycin I interacts with the HIV envelope protein.
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McGettigan, James P., Heather D. Foley, Igor M. Belyakov, Jay A. Berzofsky, Roger J. Pomerantz, and Matthias J. Schnell. "Rabies Virus-Based Vectors Expressing Human Immunodeficiency Virus Type 1 (HIV-1) Envelope Protein Induce a Strong, Cross-Reactive Cytotoxic T-Lymphocyte Response against Envelope Proteins from Different HIV-1 Isolates." Journal of Virology 75, no. 9 (May 1, 2001): 4430–34. http://dx.doi.org/10.1128/jvi.75.9.4430-4434.2001.
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ABSTRACT Novel viral vectors that are able to induce both strong and long-lasting immune responses may be required as effective vaccines for human immunodeficiency virus type 1 (HIV-1) infection. Our previous experiments with a replication-competent vaccine strain-based rabies virus (RV) expressing HIV-1 envelope protein from a laboratory-adapted HIV-1 strain (NL4–3) and a primary HIV-1 isolate (89.6) showed that RV-based vectors are excellent for B-cell priming. Here we report that cytotoxic T-lymphocyte (CTL) responses against HIV-1 gp160 are induced by recombinant RVs. Our results indicated that a single inoculation of mice with an RV expressing HIV-1 gp160 induced a solid and long-lasting memory CTL response specific for HIV-1 envelope protein. Moreover, CTLs from immunized mice were not restricted to the homologous HIV-1 envelope protein and were able to cross-kill target cells expressing HIV-1 gp160 from heterologous HIV-1 strains. These studies further suggest promise for RV-based vectors to elicit a persistent immune response against HIV-1 and their potential utility as efficacious anti-HIV-1 vaccines.
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Casini, Antonio, Michele Olivieri, Lara Vecchi, Oscar R. Burrone, and Anna Cereseto. "Reduction of HIV-1 Infectivity through Endoplasmic Reticulum-Associated Degradation-Mediated Env Depletion." Journal of Virology 89, no. 5 (December 24, 2014): 2966–71. http://dx.doi.org/10.1128/jvi.02634-14.
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During the HIV-1 replicative cycle, the gp160 envelope is processed in the secretory pathway to mature into the gp41 and gp120 subunits. Misfolded proteins located within the endoplasmic reticulum (ER) are proteasomally degraded through the ER-associated degradation (ERAD) pathway, a quality control system operating in this compartment. Here, we exploited the ERAD pathway to induce the degradation of gp160 during viral production, thus leading to the release of gp120-depleted viral particles.
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Christina Nilofer and Arumugam Mohanapriya. "Insights from the interfaces of HIV-1 envelope (ENV) trimer viral protein GP160 (GP120-GP41)." International Journal of Research in Pharmaceutical Sciences 12, no. 1 (January 6, 2021): 513–22. http://dx.doi.org/10.26452/ijrps.v12i1.4111.
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The Human Immunodeficiency Virus (HIV-1) type 1 viral protein is a life threatening virus causing HIV/AIDS in infected humans. The HIV-1 envelope (ENV) trimer glycoprotein GP160 (GP120-GP41) is gaining attention in recent years as a potential vaccine candidate for HIV-1/AIDS. However, the sequence variation and charge polarity at the interacting sites across clades is a shortcoming faced in the development of an effective HIV-1 vaccine. We analyzed the interfaces in terms of its interface area, interface size, and interface energies (van der Waals, hydrogen bonds, and electrostatics). The interfaces were divided as dominant (≥60%) and subdominant (<60%) based on van der Waals contribution to total energies. 88% of GP120 and 74% of GP41 interfaces are highly pronounced with van der Waals energy having large interfaces with interface size (98±65 (GP120) and 73±65 (GP41)) and interface area (882±1166Å2 (GP120) and 921±1288Å2 (GP41)). Nevertheless, 12% of GP120 and 26% of GP41 interfaces have subdominant van der Waals energies having small interfaces with interface size (58±20 (GP120) and 27±9 (GP41)) and interface area (581±1605Å2 (GP120) and 483±896Å2 (GP41)). It was interesting to observe GP41 small interfaces with subdominant van der Waals are stabilized by electrostatics (r2=0.63) without hydrogen bonds (r2=0). However, GP120 small interfaces were found to have two fold more hydrogen bonds (r2=0.59) than electrostatics (r2=0.20). Therefore, our previous finding stating that small protein-protein interfaces rich in electrostatics holds true in case of GP41 whereas not with GP120 protein interfaces.
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BAHBOUHI, Bouchaib, Mourad BENDJENNAT, Denise GUÉTARD, Nabil Georges SEIDAH, and Elmostafa BAHRAOUI. "Effect of alpha-1 antitrypsin Portland variant (α1-PDX) on HIV-1 replication." Biochemical Journal 352, no. 1 (November 7, 2000): 91–98. http://dx.doi.org/10.1042/bj3520091.
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The present work investigated the potential role of alpha-1 antitrypsin Portland variant (α1-PDX), a bioengineered serine proteinase inhibitor (serpin), in the interference with the viral replication of HIV-1, induction of syncytia and maturation of envelope glycoprotein gp160 to gp120 and gp41. A Jurkat lymphoid cell line transfected with a plasmid containing the α1-PDX cDNA (J-PDX) and expressing the protein in a stable manner was infected with HIV-1Lai. Controls were Jurkat cells transfected with the same vector pcDNA3 without the cDNA insert (J-pcDNA3). The results showed that viral replication of HIV-1 was significantly inhibited with a delay in replication kinetics in J-PDX cells as compared with J-pcDNA3 cells. In addition, a comparison of the infectious capacity of viruses produced in the presence and absence of α1-PDX revealed that this capacity differed. It was found that α1-PDX exerts its effect by interfering with the formation of syncytia between J-PDX cells infected with gp160 recombinant vaccinia virus, or after infection by HIV-1 and co-culture with uninfected Molt-4 cells. In contrast, when the same experiments were performed with J-pcDNA3 cells, a large number of syncytia was obtained. Analysis of viral proteins by Western blotting and densitometry showed that the inhibition of the cytopathic effect of HIV-1 and viral replication was correlated with the capacity of α1-PDX to interfere with the maturation of gp160 to gp120 and gp41.
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Ullrich, Christina K., Jerome E. Groopman, and Ramesh K. Ganju. "HIV-1 gp120- and gp160-induced apoptosis in cultured endothelial cells is mediated by caspases." Blood 96, no. 4 (August 15, 2000): 1438–42. http://dx.doi.org/10.1182/blood.v96.4.1438.
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Abstract The immune dysfunction and cell destruction that occur in the human immunodeficiency virus (HIV)-infected host appear to result from the direct cytopathic effects of viral infection and the effects of viral proteins on uninfected bystander cells. Recently, the α-chemokine receptor CXCR4 has been reported to mediate apoptosis in neuronal cells and in CD4+ and CD8+ T cells after its binding to HIV-1 envelope proteins. In the current study, it was observed that human umbilical vein endothelial cells (HUVEC) undergo apoptosis after their treatment with the HIV-1 envelope proteins gp120/160. Anti-CXCR4 monoclonal antibody decreased HIV-1 gp120/160-induced apoptosis, suggesting that the CXCR4 chemokine receptor mediates the apoptotic effects of these HIV envelope glycoproteins. Further studies revealed that caspases play an important role in this process because the pretreatment of cells with a general caspase enzyme inhibitor decreased the extent of HUVEC apoptosis induced by gp120/160. In addition, it was found that caspase-3 was activated on HIV-1 gp120/160 treatment of these cells. It was also observed that gp120/160 treatment slightly increased the expression of the pro-apoptotic molecule Bax. These results suggest that HIV-1 envelope glycoproteins can disrupt endothelial integrity through the interaction with CXCR4, thereby facilitating virus transit out of the bloodstream and contributing to the vascular injury syndromes seen in acquired immunodeficiency syndrome.
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Ullrich, Christina K., Jerome E. Groopman, and Ramesh K. Ganju. "HIV-1 gp120- and gp160-induced apoptosis in cultured endothelial cells is mediated by caspases." Blood 96, no. 4 (August 15, 2000): 1438–42. http://dx.doi.org/10.1182/blood.v96.4.1438.h8001438_1438_1442.
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The immune dysfunction and cell destruction that occur in the human immunodeficiency virus (HIV)-infected host appear to result from the direct cytopathic effects of viral infection and the effects of viral proteins on uninfected bystander cells. Recently, the α-chemokine receptor CXCR4 has been reported to mediate apoptosis in neuronal cells and in CD4+ and CD8+ T cells after its binding to HIV-1 envelope proteins. In the current study, it was observed that human umbilical vein endothelial cells (HUVEC) undergo apoptosis after their treatment with the HIV-1 envelope proteins gp120/160. Anti-CXCR4 monoclonal antibody decreased HIV-1 gp120/160-induced apoptosis, suggesting that the CXCR4 chemokine receptor mediates the apoptotic effects of these HIV envelope glycoproteins. Further studies revealed that caspases play an important role in this process because the pretreatment of cells with a general caspase enzyme inhibitor decreased the extent of HUVEC apoptosis induced by gp120/160. In addition, it was found that caspase-3 was activated on HIV-1 gp120/160 treatment of these cells. It was also observed that gp120/160 treatment slightly increased the expression of the pro-apoptotic molecule Bax. These results suggest that HIV-1 envelope glycoproteins can disrupt endothelial integrity through the interaction with CXCR4, thereby facilitating virus transit out of the bloodstream and contributing to the vascular injury syndromes seen in acquired immunodeficiency syndrome.
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Binley, James M., Rogier W. Sanders, Brian Clas, Norbert Schuelke, Aditi Master, Yong Guo, Francis Kajumo, et al. "A Recombinant Human Immunodeficiency Virus Type 1 Envelope Glycoprotein Complex Stabilized by an Intermolecular Disulfide Bond between the gp120 and gp41 Subunits Is an Antigenic Mimic of the Trimeric Virion-Associated Structure." Journal of Virology 74, no. 2 (January 15, 2000): 627–43. http://dx.doi.org/10.1128/jvi.74.2.627-643.2000.
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ABSTRACT The few antibodies that can potently neutralize human immunodeficiency virus type 1 (HIV-1) recognize the limited number of envelope glycoprotein epitopes exposed on infectious virions. These native envelope glycoprotein complexes comprise three gp120 subunits noncovalently and weakly associated with three gp41 moieties. The individual subunits induce neutralizing antibodies inefficiently but raise many nonneutralizing antibodies. Consequently, recombinant envelope glycoproteins do not elicit strong antiviral antibody responses, particularly against primary HIV-1 isolates. To try to develop recombinant proteins that are better antigenic mimics of the native envelope glycoprotein complex, we have introduced a disulfide bond between the C-terminal region of gp120 and the immunodominant segment of the gp41 ectodomain. The resulting gp140 protein is processed efficiently, producing a properly folded envelope glycoprotein complex. The association of gp120 with gp41 is now stabilized by the supplementary intermolecular disulfide bond, which forms with approximately 50% efficiency. The gp140 protein has antigenic properties which resemble those of the virion-associated complex. This type of gp140 protein may be worth evaluating for immunogenicity as a component of a multivalent HIV-1 vaccine.
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Doria-Rose, N. A., G. H. Learn, A. G. Rodrigo, D. C. Nickle, F. Li, M. Mahalanabis, M. T. Hensel, et al. "Human Immunodeficiency Virus Type 1 Subtype B Ancestral Envelope Protein Is Functional and Elicits Neutralizing Antibodies in Rabbits Similar to Those Elicited by a Circulating Subtype B Envelope." Journal of Virology 79, no. 17 (September 1, 2005): 11214–24. http://dx.doi.org/10.1128/jvi.79.17.11214-11224.2005.
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ABSTRACT Human immunodeficiency virus type 1 (HIV-1) is a difficult target for vaccine development, in part because of its ever-expanding genetic diversity and attendant capacity to escape immunologic recognition. Vaccine efficacy might be improved by maximizing immunogen antigenic similarity to viruses likely to be encountered by vaccinees. To this end, we designed a prototype HIV-1 envelope vaccine using a deduced ancestral state for the env gene. The ancestral state reconstruction method was shown to be >95% accurate by computer simulation and 99.8% accurate when estimating the known inoculum used in an experimental infection study in rhesus macaques. Furthermore, the deduced ancestor gene differed from the set of sequences used to derive the ancestor by an average of 12.3%, while these latter sequences were an average of 17.3% different from each other. A full-length ancestral subtype B HIV-1 env gene was constructed and shown to produce a glycoprotein of 160 kDa that bound and fused with cells expressing the HIV-1 coreceptor CCR5. This Env was also functional in a virus pseudotype assay. When either gp160- or gp140-expressing plasmids and recombinant gp120 were used to immunize rabbits in a DNA prime-protein boost regimen, the artificial gene induced immunoglobulin G antibodies capable of weakly neutralizing heterologous primary HIV-1 strains. The results were similar for rabbits immunized in parallel with a natural isolate, HIV-1 SF162. Further design efforts to better present conserved neutralization determinants are warranted.
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Than, S., N. Oyaizu, RN Pahwa, VS Kalyanaraman, and S. Pahwa. "Effect of human immunodeficiency virus type-1 envelope glycoprotein gp160 on cytokine production from cord-blood T cells." Blood 84, no. 1 (July 1, 1994): 184–88. http://dx.doi.org/10.1182/blood.v84.1.184.184.
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Abstract We have recently demonstrated that the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein gp160 enhances the in vitro differentiation of hematopoietic myeloid progenitor cells derived from cord blood by inducing secretion of colony-stimulating factor(s) (CSF) in T cells, presumably through the interaction of gp160 with CD4 molecules. In this study, we investigated the gp 160-induced humoral CSFs in cord blood by enzyme-linked immunosorbent assay (ELISA) and by polymerase chain reaction on reverse-transcribed mRNA (RT-PCR). We demonstrate that gp160 can induce interleukin (IL)-3, IL-6, and granulocyte-macrophage CSF (GM-CSF) protein secretion only in purified cord-blood T cells (CB-T) and not in detectable amounts in whole cord blood cells (WCB); cytokine mRNA induction occurred in purified CB-T and WCB, but was significantly greater in the former. Treatment of gp160 with soluble CD4 (sCD4) abolished the secretion of all three cytokines in CB-T cells, which suggests that interaction of gp160 with CD4 molecules is required for the secretion of these cytokines from CB- T cells. However, in WCB cells, sCD4 treatment of gp160 resulted in inhibition of only IL-3 and GM-CSF mRNA, whereas IL-6 secretion was enhanced. Purified cord-blood monocytes secreted only IL-6 in response to gp160, and the gp160-induced IL-6 secretion by monocytes was also further increased by gp160 + sCD4 complex. Furthermore, monocyte culture supernatants suppressed gp160-induced IL-3 secretion from CB-T cells. These findings indicate that (1) CB-T cells are a potent source of gp160-induced hematopoietic cytokines, and (2) that different mechanisms are involved in the induction of IL-6 by gp160 in the T- and non-T-cell fractions of cord blood. The ability of HIV gp160 to induce hematopoietic CSFs in cord blood may be important in HIV pathogenesis.
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Than, S., N. Oyaizu, RN Pahwa, VS Kalyanaraman, and S. Pahwa. "Effect of human immunodeficiency virus type-1 envelope glycoprotein gp160 on cytokine production from cord-blood T cells." Blood 84, no. 1 (July 1, 1994): 184–88. http://dx.doi.org/10.1182/blood.v84.1.184.bloodjournal841184.
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We have recently demonstrated that the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein gp160 enhances the in vitro differentiation of hematopoietic myeloid progenitor cells derived from cord blood by inducing secretion of colony-stimulating factor(s) (CSF) in T cells, presumably through the interaction of gp160 with CD4 molecules. In this study, we investigated the gp 160-induced humoral CSFs in cord blood by enzyme-linked immunosorbent assay (ELISA) and by polymerase chain reaction on reverse-transcribed mRNA (RT-PCR). We demonstrate that gp160 can induce interleukin (IL)-3, IL-6, and granulocyte-macrophage CSF (GM-CSF) protein secretion only in purified cord-blood T cells (CB-T) and not in detectable amounts in whole cord blood cells (WCB); cytokine mRNA induction occurred in purified CB-T and WCB, but was significantly greater in the former. Treatment of gp160 with soluble CD4 (sCD4) abolished the secretion of all three cytokines in CB-T cells, which suggests that interaction of gp160 with CD4 molecules is required for the secretion of these cytokines from CB- T cells. However, in WCB cells, sCD4 treatment of gp160 resulted in inhibition of only IL-3 and GM-CSF mRNA, whereas IL-6 secretion was enhanced. Purified cord-blood monocytes secreted only IL-6 in response to gp160, and the gp160-induced IL-6 secretion by monocytes was also further increased by gp160 + sCD4 complex. Furthermore, monocyte culture supernatants suppressed gp160-induced IL-3 secretion from CB-T cells. These findings indicate that (1) CB-T cells are a potent source of gp160-induced hematopoietic cytokines, and (2) that different mechanisms are involved in the induction of IL-6 by gp160 in the T- and non-T-cell fractions of cord blood. The ability of HIV gp160 to induce hematopoietic CSFs in cord blood may be important in HIV pathogenesis.
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Polydefkis, M., S. Koenig, C. Flexner, E. Obah, K. Gebo, S. Chakrabarti, P. L. Earl, B. Moss, and R. F. Siliciano. "Anchor sequence-dependent endogenous processing of human immunodeficiency virus 1 envelope glycoprotein gp160 for CD4+ T cell recognition." Journal of Experimental Medicine 171, no. 3 (March 1, 1990): 875–87. http://dx.doi.org/10.1084/jem.171.3.875.
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Human CD4+ T cell clones and cell lines were shown to lyse recombinant vaccinia virus-infected cells that synthesize the HIV-1 envelope glycoprotein gp160. The processing of endogenously synthesized gp160 for recognition by CD4+ T cells required that the protein, after synthesis on the rough endoplasmic reticulum and during subsequent cellular transport, remain attached to the luminal/extracellular membrane face by a hydrophobic anchor sequence.
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Foley, Heather D., Miguel Otero, Jan M. Orenstein, Roger J. Pomerantz, and Matthias J. Schnell. "Rhabdovirus-Based Vectors with Human Immunodeficiency Virus Type 1 (HIV-1) Envelopes Display HIV-1-Like Tropism and Target Human Dendritic Cells." Journal of Virology 76, no. 1 (January 1, 2002): 19–31. http://dx.doi.org/10.1128/jvi.76.1.19-31.2002.
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ABSTRACT We describe replication-competent, vaccine strain-based rabies viruses (RVs) that lack their own single glycoprotein and express, instead, a chimeric RV-human immunodeficiency virus type 1 (HIV-1) envelope protein composed of the ectodomain and transmembrane domains of HIV-1 gp160 and the cytoplasmic domain of RV G. The envelope proteins from both X4 (NL4-3)- and R5X4 (89.6)-tropic HIV-1 strains were utilized. These recombinant viruses very closely mimicked an HIV-1- like tropism, as indicated by blocking experiments. Infection was inhibited by SDF-1 on cells expressing CD4 and CXCR4 for both viruses, whereas RANTES abolished infection of cells expressing CCR5 in addition to CD4 in studies of the RV expressing HIV-189.6 Env. In addition, preincubation with soluble CD4 or monoclonal antibodies directed against HIV-1 gp160 blocked the infectivity of both G-deficient viruses but did not affect the G-containing RVs. Our results also indicated that the G-deficient viruses expressing HIV-1 envelope protein, in contrast to wild-type RV but similar to HIV-1, enter cells by a pH-independent pathway. As observed for HIV-1, the surrogate viruses were able to target human peripheral blood mononuclear cells, macrophages, and immature and mature human dendritic cells (DC). Moreover, G-containing RV-based vectors also infected mature human DC, indicating that infection of these cells is also supported by RV G. The ability of RV-based vectors to infect professional antigen-presenting cells efficiently further emphasizes the potential use of recombinant RVs as vaccines.
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Pabst, Martin, Martina Chang, Johannes Stadlmann, and Friedrich Altmann. "Glycan profiles of the 27 N-glycosylation sites of the HIV envelope protein CN54gp140." Biological Chemistry 393, no. 8 (August 1, 2012): 719–30. http://dx.doi.org/10.1515/hsz-2012-0148.
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Abstract Hope rests on the envelope proteins of human immunodeficiency virus (HIV) as protective vaccines and thus their antibody binding sites are of prime interest. 2G12 and other human antibodies bind to a cluster of oligomannose N-glycans. Owing to the extreme number and density of N-glycosylation sites gp160 and its recombinant form gp140 represent challenging tasks for site-specific glycosylation analysis. We have conducted a glycosylation analysis of CN54gp140 by liquid chromatography-electrospray ionization-mass spectrometry (LC-ESI-MS) using an ion trap as well as a Q-TOF instrument and standard software for glycopeptide identification. First, a deglycosylated sample of the protease digest served to locate the elution positions of peptides covering all of the 27 potential N-glycosylation sites. Then, the assignments of the similarly eluting glycopeptides were verified by collision-induced decay MS/MS experiments with elevated fragmentation energy. The acquisition of site-specific glycan profiles was facilitated by the use of buffered eluent, which rounds up all glycoforms of a peptide into one peak. Calculation of the molecular mass drawn on the weighted averages of the glycans at each site led to the actual mass of gp140 of approximately 120 kDa.
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Derby, Nina R., Zane Kraft, Elaine Kan, Emma T. Crooks, Susan W. Barnett, Indresh K. Srivastava, James M. Binley, and Leonidas Stamatatos. "Antibody Responses Elicited in Macaques Immunized with Human Immunodeficiency Virus Type 1 (HIV-1) SF162-Derived gp140 Envelope Immunogens: Comparison with Those Elicited during Homologous Simian/Human Immunodeficiency Virus SHIVSF162P4 and Heterologous HIV-1 Infection." Journal of Virology 80, no. 17 (September 1, 2006): 8745–62. http://dx.doi.org/10.1128/jvi.00956-06.
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ABSTRACT The antibody responses elicited in rhesus macaques immunized with soluble human immunodeficiency virus (HIV) Env gp140 proteins derived from the R5-tropic HIV-1 SF162 virus were analyzed and compared to the broadly reactive neutralizing antibody responses elicited during chronic infection of a macaque with a simian/human immunodeficiency virus (SHIV) expressing the HIV-1 SF162 Env, SHIVSF162P4, and humans infected with heterologous HIV-1 isolates. Four gp140 immunogens were evaluated: SF162gp140, ΔV2gp140 (lacking the crown of the V2 loop), ΔV3gp140 (lacking the crown of the V3 loop), and ΔV2ΔV3gp140 (lacking both the V2 and V3 loop crowns). SF162gp140 and ΔV2gp140 have been previously evaluated by our group in a pilot study, but here, a more comprehensive analysis of their immunogenic properties was performed. All four gp140 immunogens elicited stronger anti-gp120 than anti-gp41 antibodies and potent homologous neutralizing antibodies (NAbs) that primarily targeted the first hypervariable region (V1 loop) of gp120, although SF162gp140 also elicited anti-V3 NAbs. Heterologous NAbs were elicited by SF162gp140 and ΔV2gp140 but were weak in potency and narrow in specificity. No heterologous NAbs were elicited by ΔV3gp140 or ΔV2ΔV3gp140. In contrast, the SHIVSF162P4-infected macaque and HIV-infected humans generated similar titers of anti-gp120 and anti-gp41 antibodies and NAbs of significant breadth against primary HIV-1 isolates, which did not target the V1 loop. The difference in V1 loop immunogenicity between soluble gp140 and virion-associated gp160 Env proteins derived from SF162 may be the basis for the observed difference in the breadth of neutralization in sera from the immunized and infected animals studied here.
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Pincus, S. H., K. Wehrly, E. Tschachler, S. F. Hayes, R. S. Buller, and M. Reitz. "Variants selected by treatment of human immunodeficiency virus-infected cells with an immunotoxin." Journal of Experimental Medicine 172, no. 3 (September 1, 1990): 745–57. http://dx.doi.org/10.1084/jem.172.3.745.
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An immunotoxin has been made by coupling anti-human immunodeficiency virus (HIV) envelope antibody 907 to ricin A chain (907-RAC). 907 recognizes an epitope within the immunodominant PB-1 loop of gp120. Variant cells were selected by cloning persistently infected H9/human T lymphocyte virus IIIB cells in the presence of the immunotoxin. Clones resistant to 907-RAC arose at a frequency of 0.1-1.0%. Seven clones were selected for intensive analysis. When studied, these clones fell into two distinct groups, members of which appeared to be identical, suggesting that the variation arose before the selection process. In contrast to the parent cells, none of the cloned variants produced infectious HIV. The first set of clones, designated the "E" variants, expressed decreased levels of the HIV envelope on the cell surface. However, levels of intracellular HIV antigens and reverse transcriptase were equal to or greater than that of the parental cell line. Radioimmunoprecipitation demonstrated that the gp160 was truncated to 145 kD (gp120 was normal length), capable of binding to CD4, and, unlike normal gp160, was released in its unprocessed form into the cellular supernatant. Sequence analysis demonstrated that a deletion at codon 687 of the envelope gene resulted in the production of this truncated protein. Ultrastructural analysis of E variants demonstrated some budding forms of virus, but also large numbers of HIV within intracellular vesicles. The second set of variants, the "F" series, produced no HIV antigens, reverse transcriptase, nor was there ultrastructural evidence of virus. However, proviral DNA was present. Virus could not be induced with agents known to activate latent HIV. These cells also lacked cell surface CD4 and could not be infected with HIV. These studies demonstrate that variation in HIV can affect the phenotype of the cells carrying the altered virus, allowing for escape from immunologic destruction. The E variants may serve as prototypes for attenuated HIV, which could be used as a vaccine. We have reconstructed the mutation found in the E variants within the infectious HIV clone HXB-2 and demonstrated that the resulting virus retains its noninfectious phenotype.
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Lorin, Clarisse, Lucile Mollet, Frédéric Delebecque, Chantal Combredet, Bruno Hurtrel, Pierre Charneau, Michel Brahic, and Frédéric Tangy. "A Single Injection of Recombinant Measles Virus Vaccines Expressing Human Immunodeficiency Virus (HIV) Type 1 Clade B Envelope Glycoproteins Induces Neutralizing Antibodies and Cellular Immune Responses to HIV." Journal of Virology 78, no. 1 (January 1, 2004): 146–57. http://dx.doi.org/10.1128/jvi.78.1.146-157.2004.
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ABSTRACT The anchored and secreted forms of the human immunodeficiency virus type 1 (HIV-1) 89.6 envelope glycoprotein, either complete or after deletion of the V3 loop, were expressed in a cloned attenuated measles virus (MV) vector. The recombinant viruses grew as efficiently as the parental virus and expressed high levels of the HIV protein. Expression was stable during serial passages. The immunogenicity of these recombinant vectors was tested in mice susceptible to MV and in macaques. High titers of antibodies to both MV and HIV-Env were obtained after a single injection in susceptible mice. These antibodies neutralized homologous SHIV89.6p virus, as well as several heterologous HIV-1 primary isolates. A gp160 mutant in which the V3 loop was deleted induced antibodies that neutralized heterologous viruses more efficiently than antibodies induced by the native envelope protein. A high level of CD8+ and CD4+ cells specific for HIV gp120 was also detected in MV-susceptible mice. Furthermore, recombinant MV was able to raise immune responses against HIV in mice and macaques with a preexisting anti-MV immunity. Therefore, recombinant MV vaccines inducing anti-HIV neutralizing antibodies and specific T lymphocytes responses deserve to be tested as a candidate AIDS vaccine.
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Singhal, Pravin C., Pratima Sharma, Krishna Reddy, Vibha Sanwal, Jagat Rawal, Nora Gibbons, and Nicholas Franki. "HIV-1 gp160 Envelope Protein Modulates Proliferation and Apoptosis in Mesangial Cells." Nephron 76, no. 3 (1997): 284–95. http://dx.doi.org/10.1159/000190193.
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Legastelois, Isabelle, and Claude Desgranges. "Design and Intracellular Activity of a Human Single-Chain Antibody to Human Immunodeficiency Virus Type 1 Conserved gp41 Epitope." Journal of Virology 74, no. 12 (June 15, 2000): 5712–15. http://dx.doi.org/10.1128/jvi.74.12.5712-5715.2000.
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ABSTRACT A human lymphoid cell line (F172-D8) excreting a human immunodeficiency virus type 1 (HIV-1) anti-gp41 monoclonal antibody was used to construct a plasmid containing the cDNA of the single-chain variable fragment (scFvD8) corresponding to this antibody. A stable human osteosarcoma cell line was obtained which expressed the scFvD8 protein in the cytoplasm. Whereas a cell line transfected with a control construct (pCI-neo) was readily and productively infected with laboratory (Ba-L) or primary HIV-1 isolates, the scFvD8 cell line did not support productive infection. Binding of the virus, internalization, and reverse transcription were not altered by scFvD8 expression, but gp160 expression was dramatically reduced. These data suggest that cytoplasmic expression of this artificial single-chain antibody can interfere with gp160 expression, thereby reducing the production of mature viral envelope proteins.
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Lian, Ying, Indresh Srivastava, V. Rául Gómez-Román, Jan zur Megede, Yide Sun, Elaine Kan, Susan Hilt, et al. "Evaluation of Envelope Vaccines Derived from the South African Subtype C Human Immunodeficiency Virus Type 1 TV1 Strain." Journal of Virology 79, no. 21 (November 1, 2005): 13338–49. http://dx.doi.org/10.1128/jvi.79.21.13338-13349.2005.
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ABSTRACT Human immunodeficiency virus type 1 (HIV-1) subtype C infections are on the rise in Sub-Saharan Africa and Asia. Therefore, there is a need to develop an HIV vaccine capable of eliciting broadly reactive immune responses against members of this subtype. We show here that modified HIV envelope (env) DNA vaccines derived from the South African subtype C TV1 strain are able to prime for humoral responses in rabbits and rhesus macaques. Priming rabbits with DNA plasmids encoding V2-deleted TV1 gp140 (gp140TV1ΔV2), followed by boosting with oligomeric protein (o-gp140TV1ΔV2) in MF59 adjuvant, elicited higher titers of env-binding and autologous neutralizing antibodies than priming with DNA vaccines encoding the full-length TV1 env (gp160) or the intact TV1 gp140. Immunization with V2-deleted subtype B SF162 env and V2-deleted TV1 env together using a multivalent vaccine approach induced high titers of oligomeric env-binding antibodies and autologous neutralizing antibodies against both the subtypes B and C vaccine strains, HIV-1 SF162 and TV1, respectively. Low-level neutralizing activity against the heterologous South African subtype C TV2 strain, as well as a small subset of viruses in a panel of 13 heterologous primary isolates, was observed in some rabbits immunized with the V2-deleted vaccines. Immunization of rhesus macaques with the V2-deleted TV1 DNA prime/protein boost also elicited high titers of env-binding antibodies and moderate titers of autologous TV1 neutralizing antibodies. The pilot-scale production of the various TV1 DNA vaccine constructs and env proteins described here should provide an initial platform upon which to improve the immunogenicity of these subtype C HIV envelope vaccines.
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Fenouillet, E., B. Clerget-Raslain, J. C. Gluckman, D. Guétard, L. Montagnier, and E. Bahraoui. "Role of N-linked glycans in the interaction between the envelope glycoprotein of human immunodeficiency virus and its CD4 cellular receptor. Structural enzymatic analysis." Journal of Experimental Medicine 169, no. 3 (March 1, 1989): 807–22. http://dx.doi.org/10.1084/jem.169.3.807.
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gp120 and CD4 are two glycoproteins that are considered to interact together to allow the binding of HIV to CD4+ cells. We have utilized enzymatic digestion by endoglycosidases in order to analyze N-linked carbohydrate chains of these proteins and their possible role in the interaction of gp120 or gp160 with CD4. SDS denaturation was not necessary to obtain optimal deglycosylation of either molecule, but deglycosylation of CD4, nonetheless, depended on the presence of 1% Triton X-100. Endo H and Endo F that cleave high mannose type and biantennary glycans diminish the molecular mass of the glycoproteins from 120 or 160 Kd to 90 or 130 Kd, respectively; but these enzymes had no action on CD4 glycans. Endo F N-glycanase mixture, which acts on all glycan species, including triantennary chains, led to complete deglycosylation of gp120/160 and of CD4. Therefore, probably half of the glycan moieties of gp120/160 are composed of high mannose and biantennary chains, the other half being triantennary species. The carbohydrate structures of CD4 seems to be triantennary chains. To analyze the binding of gp120/160 to CD4, we used a molecular assay in which an mAb (110-4) coupled to Sepharose CL4B allowed the attachment of soluble gp120/160 to the beads; 125I-sCD4 was then added to measure the binding of CD4 to different amounts of gp120/160. Binding to gp160 was not modified when using completely deglycosylated 125I-sCD4, while deglycosylation of gp120 or of gp160 resulted in the decrease of the binding to native CD4 by two- and fivefold, respectively. Native and deglycosylated gp120/160 bound to CD4+ cells with comparable affinities. In addition, deglycosylated gp120 displaced 125I-gp160 binding to CD4+ cells and inhibited fusion of fresh Molt-T4 cells with CEM HIV1- or HIV2-infected cells to the same extent. Taken together, these results indicate that carbohydrates of CD4 and of gp120/160 do not play a significant role in the in vitro interaction between these two molecules.
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Bültmann, Andreas, Walter Muranyi, Brian Seed, and Jürgen Haas. "Identification of Two Sequences in the Cytoplasmic Tail of the Human Immunodeficiency Virus Type 1 Envelope Glycoprotein That Inhibit Cell Surface Expression." Journal of Virology 75, no. 11 (June 1, 2001): 5263–76. http://dx.doi.org/10.1128/jvi.75.11.5263-5276.2001.
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ABSTRACT During synthesis and export of protein, the majority of the human immunodeficiency virus type 1 (HIV-1) Env glycoprotein gp160 is retained in the endoplasmic reticulum (ER) and subsequently ubiquitinated and degraded by proteasomes. Only a small fraction of gp160 appears to be correctly folded and processed and is transported to the cell surface, which makes it difficult to identify negative sequence elements regulating steady-state surface expression of Env at the post-ER level. Moreover, poorly localized mRNA retention sequences inhibiting the nucleocytoplasmic transport of viral transcripts interfere with the identification of these sequence elements. Using two heterologous systems with CD4 or immunoglobulin extracellular/transmembrane domains in combination with the gp160 cytoplasmic domain, we were able to identify two membrane-distal, neighboring motifs, is1 (amino acids 750 to 763) andis2 (amino acids 764 to 785), which inhibited surface expression and induced Golgi localization of the chimeric proteins. To prove that these two elements act similarly in the homologous context of the Env glycoprotein, we generated a synthetic gp160 gene with synonymous codons, the transcripts of which are not retained within the nucleus. In accordance with the results in heterologous systems, an internal deletion of both elements considerably increased surface expression of gp160.
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Schülke, Norbert, Mika S. Vesanen, Rogier W. Sanders, Ping Zhu, Min Lu, Deborah J. Anselma, Anthony R. Villa, et al. "Oligomeric and Conformational Properties of a Proteolytically Mature, Disulfide-Stabilized Human Immunodeficiency Virus Type 1 gp140 Envelope Glycoprotein." Journal of Virology 76, no. 15 (August 1, 2002): 7760–76. http://dx.doi.org/10.1128/jvi.76.15.7760-7776.2002.
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ABSTRACT We describe the further properties of a protein, designated SOS gp140, wherein the association of the gp120 and gp41 subunits of the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein is stabilized by an intersubunit disulfide bond. HIV-1JR-FL SOS gp140, proteolytically uncleaved gp140 (gp140UNC), and gp120 were expressed in stably transfected Chinese hamster ovary cells and analyzed for antigenic and structural properties before and after purification. Compared with gp140UNC, SOS gp140 reacted more strongly in surface plasmon resonance and radioimmunoprecipitation assays with the neutralizing monoclonal antibodies (MAbs) 2G12 (anti-gp120), 2F5 (anti-gp41), and 17b (to a CD4-induced epitope that overlaps the CCR5-binding site). In contrast, gp140UNC displayed the greater reactivity with nonneutralizing anti-gp120 and anti-gp41 MAbs. Immunoelectron microscopy studies suggested a model for SOS gp140 wherein the gp41 ectodomain (gp41ECTO) occludes the “nonneutralizing” face of gp120, consistent with the antigenic properties of this protein. We also report the application of Blue Native polyacrylamide gel electrophoresis (BN-PAGE), a high-resolution molecular sizing method, to the study of viral envelope proteins. BN-PAGE and other biophysical studies demonstrated that SOS gp140 was monomeric, whereas gp140UNC comprised a mixture of noncovalently associated and disulfide-linked dimers, trimers, and tetramers. The oligomeric and conformational properties of SOS gp140 and gp140UNC were largely unaffected by purification. An uncleaved gp140 protein containing the SOS cysteine mutations (SOS gp140UNC) was also oligomeric. Surprisingly, variable-loop-deleted SOS gp140 proteins were expressed (although not yet purified) as cleaved, noncovalently associated oligomers that were significantly more stable than the full-length protein. Overall, our findings have relevance for rational vaccine design.
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Belyakov, Igor M., Linda S. Wyatt, Jeffrey D. Ahlers, Patricia Earl, C. David Pendleton, Brian L. Kelsall, Warren Strober, Bernard Moss, and Jay A. Berzofsky. "Induction of a Mucosal Cytotoxic T-Lymphocyte Response by Intrarectal Immunization with a Replication-Deficient Recombinant Vaccinia Virus Expressing Human Immunodeficiency Virus 89.6 Envelope Protein." Journal of Virology 72, no. 10 (October 1, 1998): 8264–72. http://dx.doi.org/10.1128/jvi.72.10.8264-8272.1998.
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ABSTRACT To improve the safety of recombinant vaccinia virus vaccines, modified vaccinia virus Ankara (MVA) has been employed, because it has a replication defect in most mammalian cells. Here we apply MVA to human immunodeficiency virus type 1 (HIV-1) vaccine development by incorporating the envelope protein gp160 of HIV-1 primary isolate strain 89.6 (MVA 89.6) and use it to induce mucosal cytotoxic-T-lymphocyte (CTL) immunity. In initial studies to define a dominant CTL epitope for HIV-1 89.6 gp160, we mapped the epitope to a sequence, IGPGRAFYAR (from the V3 loop), homologous to that recognized by HIV MN loop-specific CTL and showed that HIV-1 MN-specific CTLs cross-reactively recognize the corresponding epitope from strain 89.6 presented by H-2Dd. Having defined the CTL specificity, we immunized BALB/c mice intrarectally with recombinant MVA 89.6. A single mucosal immunization with MVA 89.6 was able to elicit long-lasting antigen-specific mucosal (Peyer’s patch and lamina propria) and systemic (spleen) CTL responses as effective as or more effective than those of a replication-competent vaccinia virus expressing 89.6 gp160. Immunization with MVA 89.6 led to (i) the loading of antigen-presenting cells in vivo, as measured by the ex vivo active presentation of the P18-89.6 peptide to an antigen-specific CTL line, and (ii) the significant production of the proinflammatory cytokines (interleukin-6 and tumor necrosis factor alpha) in the mucosal sites. These results indicate that nonreplicating recombinant MVA may be at least as effective for mucosal immunization as replicating recombinant vaccinia virus.
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Beddows, Simon, Norbert Schülke, Marc Kirschner, Kelly Barnes, Michael Franti, Elizabeth Michael, Thomas Ketas, et al. "Evaluating the Immunogenicity of a Disulfide-Stabilized, Cleaved, Trimeric Form of the Envelope Glycoprotein Complex of Human Immunodeficiency Virus Type 1." Journal of Virology 79, no. 14 (July 2005): 8812–27. http://dx.doi.org/10.1128/jvi.79.14.8812-8827.2005.
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ABSTRACT The human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein (Env) complex comprises three gp120 exterior glycoproteins each noncovalently linked to a gp41 transmembrane glycoprotein. Monomeric gp120 proteins can elicit antibodies capable of neutralizing atypically sensitive test viruses in vitro, but these antibodies are ineffective against representative primary isolates and the gp120 vaccines failed to provide protection against HIV-1 transmission in vivo. Alternative approaches to raising neutralizing antibodies are therefore being pursued. Here we report on the antibody responses generated in rabbits against a soluble, cleaved, trimeric form of HIV-1JR-FL Env. In this construct, the gp120 and gp41 moieties are covalently linked by an intermolecular disulfide bond (SOS gp140), and an I559P substitution has been added to stabilize gp41-gp41 interactions (SOSIP gp140). We investigated the value of DNA priming and compared the use of membrane-bound and soluble priming antigens and of repeat boosting with soluble and particulate protein antigen. Compared to monomeric gp120, SOSIP gp140 trimers elicited approximately threefold lower titers of anti-gp120 antibodies. Priming with DNA encoding a membrane-bound form of the SOS gp140 protein, followed by several immunizations with soluble SOSIP gp140 trimers, resulted in antibodies capable of neutralizing sensitive strains at high titers. A subset of these sera also neutralized, at lower titers, HIV-1JR-FL and some other primary isolates in pseudovirus and/or whole-virus assays. Neutralization of these viruses was immunoglobulin mediated and was predominantly caused by antibodies to gp120 epitopes, but not the V3 region.
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Balasubramanian, Anuradha, Ramesh K. Ganju, and Jerome E. Groopman. "HCV and HIV Envelope Proteins Co-Operatively Induce Fas-Mediated Apoptosis Via a Novel Stat1 Signaling Pathway." Blood 104, no. 11 (November 16, 2004): 604. http://dx.doi.org/10.1182/blood.v104.11.604.604.
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Abstract Hepatitis C virus (HCV) co-infects approximately 40% of patients with human immunodeficiency virus (HIV). HCV/HIV co-infected patients often have progressive liver disease that can lead to cirrhosis and death. We observed that hepatocytes exposed to HCV and HIV envelope proteins undergo apoptosis via an ‘innocent bystander’ mechanism due to cell surface binding of viral proteins independent of direct viral infection. HCV envelope protein E2 (1.5 nM) and HIV envelope protein gp120 (0.8 nM) derived from M-tropic and T-tropic viruses induce significant apoptosis in both hepatocytic cell lines and primary hepatocytes, while either of these viral proteins alone does not. Now, we have elucidated the signaling mechanisms that mediate this effect. HCV-E2 and HIV-gp120 were found to significantly upregulate Fas ligand (FasL). We then examined the Stat family of proteins known to participate in FasL and apoptotic pathways. We observed an increased DNA binding activity of Stat1 upon HCV-E2 and HIV-gp120 stimulation. Furthermore, overexpression of wild type Stat1αincreased apoptosis and FasL expression in HepG2 cells, whereas a C-terminal domain deleted mutant, Stat1β, decreased HCV-E2 and HIV-gp120 mediated apoptosis and FasL upregulation. Overexpression of Stat1αand Stat1β in primary hepatocytes confirmed that Stat1αenhanced apoptosis upon HCV-E2 and HIV-gp120 treatment. We observed a tyrosine dependent activation of Stat1 and a subsequent serine phosphorylation of Stat1. TYK2, lyn kinase, RAFTK and MAP kinases were activated upstream of Stat1. In addition, Stat1 associated with the death domain-containing adapter protein TRADD. TRADD is known to induce inflammatory signaling through the NFκB pathway. Here, the association of Stat1 with TRADD would reduce the availability of TRADD to induce NFκB. Thus, Stat1 sequestration of downstream apoptotic signaling molecules would block the host inflammatory response. Further characterization of Fas-mediated apoptosis revealed that caspase 3 and caspase 7 were activated following HCV-E2 and HIV-gp120 stimulation. However, we were not able to detect significant activity of either caspase 8 or caspase 9. We also found a loss in mitochondrial membrane potential upon HCV-E2 and HIV-gp120 stimulation, which leads to the release of cytochrome C and AIF into the cytosol. Taken together, these studies indicate that the viral proteins of HCV and HIV co-operate in causing the apoptosis of hepatocytes, independent of direct infection, by induction of novel Stat1 downstream signaling pathways at the expense of a normal host inflammatory response.
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Wang, Bao-Zhong, Weimin Liu, Sang-Moo Kang, Munir Alam, Chunzi Huang, Ling Ye, Yuliang Sun, et al. "Incorporation of High Levels of Chimeric Human Immunodeficiency Virus Envelope Glycoproteins into Virus-Like Particles." Journal of Virology 81, no. 20 (August 1, 2007): 10869–78. http://dx.doi.org/10.1128/jvi.00542-07.
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ABSTRACT The human immunodeficiency virus (HIV) envelope (Env) protein is incorporated into HIV virions or virus-like particles (VLPs) at very low levels compared to the glycoproteins of most other enveloped viruses. To test factors that influence HIV Env particle incorporation, we generated a series of chimeric gene constructs in which the coding sequences for the signal peptide (SP), transmembrane (TM), and cytoplasmic tail (CT) domains of HIV-1 Env were replaced with those of other viral or cellular proteins individually or in combination. All constructs tested were derived from HIV type 1 (HIV-1) Con-S ΔCFI gp145, which itself was found to be incorporated into VLPs much more efficiently than full-length Con-S Env. Substitution of the SP from the honeybee protein mellitin resulted in threefold-higher chimeric HIV-1 Env expression levels on insect cell surfaces and an increase of Env incorporation into VLPs. Substitution of the HIV TM-CT with sequences derived from the mouse mammary tumor virus (MMTV) envelope glycoprotein, influenza virus hemagglutinin, or baculovirus (BV) gp64, but not from Lassa fever virus glycoprotein, was found to enhance Env incorporation into VLPs. The highest level of Env incorporation into VLPs was observed in chimeric constructs containing the MMTV and BV gp64 TM-CT domains in which the Gag/Env molar ratios were estimated to be 4:1 and 5:1, respectively, compared to a 56:1 ratio for full-length Con-S gp160. Electron microscopy revealed that VLPs with chimeric HIV Env were similar to HIV-1 virions in morphology and size and contained a prominent layer of Env spikes on their surfaces. HIV Env specific monoclonal antibody binding results showed that chimeric Env-containing VLPs retained conserved epitopes and underwent conformational changes upon CD4 binding.
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Ho, H., and G. Nie. "115. DEVELOPMENT OF POTENT AND STABLE PC6 INHIBITORS TO BLOCK EMBRYO IMPLANTATION FOR FEMALE CONTRACEPTION AND PREVENTION OF HIV." Reproduction, Fertility and Development 22, no. 9 (2010): 33. http://dx.doi.org/10.1071/srb10abs115.
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Proprotein convertase (PC) 6, a member of the PC family that activate precursor proteins into their active forms, is a critical endometrial factor for embryo implantation. Blocking PC6 production in mice inhibits decidualisation (a critical process of implantation) and inhibits implantation. PCs including PC6 also play a critical role in HIV infection through cleaving HIV envelope precursor protein gp160 into functional gp120 and gp41. PC inhibitors are demonstrated to inhibit HIV transmission via blocking gp160 cleavage. We hypothesised that PC6 is a potential target for the development of female contraception that could also provide protection from HIV infection. One key requirement to prove this concept in an animal model is a potent PC6 inhibitor that is stable in serum. Polyarginine peptide (polyR) is published to be a potent PC6 inhibitor that also inhibits HIV. We have confirmed that polyR inhibits PC6 in vivo and completely blocks decidualisation of human endometrial stromal cells in culture. However, polyR has short serum half-life. The aim of this current study was to generate polyR derivatives that are potent PC6 inhibitors, with increased serum stability. We modified polyR by either PEGylation with different sized PEG (polyethylene glycol) or cyclization, and tested their potency, stability and utility in vivo. Modifications at both terminals of polyR dramatically reduced its PC6 inhibitory potency. PEGylation at the C-terminal, regardless of the PEG size, had no effect. In silico docking experiments showed that N-terminal PEGylation or cyclization affected the binding of polyR to the PC6 active site, but not C-terminal PEGylation. One of the polyR derivatives, C-30kDa-PEG polyR was confirmed to be as potent as the parental peptide but much more stable in serum. Studies are currently in place to inhibit embryo implantation in mice using C-30kDa-PEG polyR and to determine its ability to inhibit HIV.
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Kiszka, Irena, Dariusz Kmieciak, Jaroslaw Gzyl, Toshio Naito, Elizabeth Bolesta, Aleksander Sieron, Satya P. Singh, et al. "Effect of the V3 Loop Deletion of Envelope Glycoprotein on Cellular Responses and Protection against Challenge with Recombinant Vaccinia Virus Expressing gp160 of Primary Human Immunodeficiency Virus Type 1 Isolates." Journal of Virology 76, no. 9 (May 1, 2002): 4222–32. http://dx.doi.org/10.1128/jvi.76.9.4222-4232.2002.
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ABSTRACT The magnitude and breadth of cytotoxic-T-lymphocyte (CTL) responses induced by human immunodeficiency virus type 1 (HIV-1) envelope protein from which the hypervariable V3 loop had been deleted (ΔV3) were evaluated in the HLA-A2/Kb transgenic mice. It was demonstrated that vaccines expressing the ΔV3 mutant of either HIV-1IIIB or HIV-189.6 envelope glycoprotein induced broader CD8+ T-cell activities than those elicited by the wild-type (WT) counterparts. Specifically, the differences were associated with higher responses to conserved HLA-A2-restricted CTL epitopes of the envelope glycoprotein and could be correlated with an increased cell surface occupancy by the epitope-HLA-A2 complexes in target cells expressing the ΔV3 mutant. Using recombinant vaccinia virus expressing heterologous gp160 of primary HIV-1 isolates in a murine challenge system, we observed that the extent of resistance to viral transmission was higher in animals immunized with the ΔV3 than the WT envelope vaccine. The protection was linked to the presence of envelope-specific CD8+ T cells, since depletion of these cells by anti-CD8 antibody treatment at the time of challenge abolished the vaccine-induced protection. The results from our studies provide insights into approaches for boosting the breadth of envelope-specific CTL responses.
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Louie, Raymond H. Y., Kevin J. Kaczorowski, John P. Barton, Arup K. Chakraborty, and Matthew R. McKay. "Fitness landscape of the human immunodeficiency virus envelope protein that is targeted by antibodies." Proceedings of the National Academy of Sciences 115, no. 4 (January 8, 2018): E564—E573. http://dx.doi.org/10.1073/pnas.1717765115.
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HIV is a highly mutable virus, and over 30 years after its discovery, a vaccine or cure is still not available. The isolation of broadly neutralizing antibodies (bnAbs) from HIV-infected patients has led to renewed hope for a prophylactic vaccine capable of combating the scourge of HIV. A major challenge is the design of immunogens and vaccination protocols that can elicit bnAbs that target regions of the virus’s spike proteins where the likelihood of mutational escape is low due to the high fitness cost of mutations. Related challenges include the choice of combinations of bnAbs for therapy. An accurate representation of viral fitness as a function of its protein sequences (a fitness landscape), with explicit accounting of the effects of coupling between mutations, could help address these challenges. We describe a computational approach that has allowed us to infer a fitness landscape for gp160, the HIV polyprotein that comprises the viral spike that is targeted by antibodies. We validate the inferred landscape through comparisons with experimental fitness measurements, and various other metrics. We show that an effective antibody that prevents immune escape must selectively bind to high escape cost residues that are surrounded by those where mutations incur a low fitness cost, motivating future applications of our landscape for immunogen design.
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Bower, Joseph F., Xinzhen Yang, Joseph Sodroski, and Ted M. Ross. "Elicitation of Neutralizing Antibodies with DNA Vaccines Expressing Soluble Stabilized Human Immunodeficiency Virus Type 1 Envelope Glycoprotein Trimers Conjugated to C3d." Journal of Virology 78, no. 9 (May 1, 2004): 4710–19. http://dx.doi.org/10.1128/jvi.78.9.4710-4719.2004.
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ABSTRACT DNA vaccines expressing the envelope (Env) of human immunodeficiency virus type 1 (HIV-1) have been relatively ineffective at generating high-titer, long-lasting immune responses. Oligomeric or trimeric (gp140) forms of Env that more closely mimic the native proteins on the virion are often more effective immunogens than monomeric (gp120) envelopes. In this study, several forms of Env constructed from the HIV-1 isolate YU-2 (HIV-1YU-2) were tested for their immunogenic potential: a trimeric form of uncleaved (−) Env stabilized with a synthetic trimer motif isolated from the fibritin (FT) protein of the T4 bacteriophage, sgp140YU-2(−/FT), was compared to sgp140YU-2(−) without a synthetic trimerization domain, as well as to monomeric gp120YU-2. DNA plasmids were constructed to express Env alone or fused to various copies of murine C3d (mC3d). BALB/c mice were vaccinated (day 1 and week 4) with DNA expressing a codon-optimized envelope gene insert, alone or fused to mC3d. Mice were subsequently boosted (week 8) with the DNA or recombinant Env protein. All mice had high anti-Env antibody titers regardless of the use of mC3d. Sera from mice vaccinated with DNA expressing non-C3d-fused trimers elicited neutralizing antibodies against homologous HIV-1YU-2 virus infection in vitro. In contrast, sera from mice inoculated with DNA expressing Env-C3d protein trimers elicited antibody that neutralized both homologous HIV-1YU-2 and heterologous HIV-1ADA, albeit at low titers. Therefore, DNA vaccines expressing trimeric envelopes coupled to mC3d, expressed in vivo from codon-optimized sequences, elicit low titers of neutralizing antibodies against primary isolates of HIV-1.
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Kim, WooJin, Erin Zekas, Robert Lodge, Delia Susan-Resiga, Edwidge Marcinkiewicz, Rachid Essalmani, Koichiro Mihara, et al. "Neuroinflammation-Induced Interactions between Protease-Activated Receptor 1 and Proprotein Convertases in HIV-Associated Neurocognitive Disorder." Molecular and Cellular Biology 35, no. 21 (August 17, 2015): 3684–700. http://dx.doi.org/10.1128/mcb.00764-15.
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The proprotein convertases (PCs) furin, PC5, PACE4, and PC7 cleave secretory proteins after basic residues, including the HIV envelope glycoprotein (gp160) and Vpr. We evaluated the abundance of PC mRNAs in postmortem brains of individuals exhibiting HIV-associated neurocognitive disorder (HAND), likely driven by neuroinflammation and neurotoxic HIV proteins (e.g., envelope and Vpr). Concomitant with increased inflammation-related gene expression (interleukin-1β [IL-1β]), the mRNA levels of the above PCs are significantly increased, together with those of the proteinase-activated receptor 1 (PAR1), an inflammation-associated receptor that is cleaved by thrombin at ProArg41↓ (where the down arrow indicates the cleavage location), and potentially by PCs at Arg41XXXXArg46↓. The latter motif in PAR1, but not its R46A mutant, drives its interactions with PCs. Indeed, PAR1 upregulation leads to the inhibition of membrane-bound furin, PC5B, and PC7 and inhibits gp160 processing and HIV infectivity. Additionally, a proximity ligation assay revealed that furin and PC7 interact with PAR1. Reciprocally, increased furin expression reduces the plasma membrane abundance of PAR1 by trapping it in thetrans-Golgi network. Furthermore, soluble PC5A/PACE4 can target/disarm cell surface PAR1 through cleavage at Arg46↓. PACE4/PC5A decreased calcium mobilization induced by thrombin stimulation. Our data reveal a new PC-PAR1-interaction pathway, which offsets the effects of HIV-induced neuroinflammation, viral infection, and potentially the development of HAND.
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Anand, Appakkudal R., Anil Prasad, Ritu R. Bradley, Yadwinder S. Deol, Tirumuru Nagaraja, Xianghui Ren, Ernest F. Terwilliger, and Ramesh K. Ganju. "HIV-1 gp120-induced migration of dendritic cells is regulated by a novel kinase cascade involving Pyk2, p38 MAP kinase, and LSP1." Blood 114, no. 17 (October 22, 2009): 3588–600. http://dx.doi.org/10.1182/blood-2009-02-206342.
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AbstractTargeting dendritic cell (DC) functions such as migration is a pivotal mechanism used by HIV-1 to disseminate within the host. The HIV-1 envelope protein is the most important of the virally encoded proteins that exploits the migratory capacity of DCs. In the present study, we elucidated the signaling machinery involved in migration of immature DCs (iDCs) in response to HIV-1 envelope protein. We observed that M-tropic HIV-1 glycoprotein 120 (gp120) induces phosphorylation of the nonreceptor tyrosine kinase, Pyk2. Inhibition of Pyk2 activity using a pharmacologic inhibitor, kinase-inactive Pyk2 mutant, and Pyk2-specific small interfering RNA blocked gp120-induced chemotaxis, confirming the role of Pyk2 in iDC migration. In addition, we also illustrated the importance of Pyk2 in iDC migration induced by virion-associated envelope protein, using aldithriol-2–inactivated M-tropic HIV-1 virus. Further analysis of the downstream signaling mechanisms involved in gp120-induced migration revealed that Pyk2 activates p38 mitogen-activated protein kinase, which in turn activates the F-actin–binding protein, leukocyte-specific protein 1, and enhances its association with actin. Taken together, our studies provide an insight into a novel gp120-mediated pathway that regulates DC chemotaxis and contributes to the dissemination of HIV-1 within an infected person.
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Earl, Patricia L., Wataru Sugiura, David C. Montefiori, Christopher C. Broder, Susan A. Lee, Carl Wild, Jeffrey Lifson, and Bernard Moss. "Immunogenicity and Protective Efficacy of Oligomeric Human Immunodeficiency Virus Type 1 gp140." Journal of Virology 75, no. 2 (January 15, 2001): 645–53. http://dx.doi.org/10.1128/jvi.75.2.645-653.2001.
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ABSTRACT The biologically active form of the human immunodeficiency virus type 1 (HIV-1) envelope (Env) glycoprotein is oligomeric. We previously described a soluble HIV-1 IIIB Env protein, gp140, with a stable oligomeric structure composed of uncleaved gp120 linked to the ectodomain of gp41 (P. L. Earl, C. C. Broder, D. Long, S. A. Lee, J. Peterson, S. Chakrabarti, R. W. Doms, and B. Moss, J. Virol. 68:3015–3026, 1994). Here we compared the antibody responses of rabbits to gp120 and gp140 that had been produced and purified in an identical manner. The gp140 antisera exhibited enhanced cross-reactivity with heterologous Env proteins as well as greater neutralization of HIV-1 compared to the gp120 antisera. To examine both immunogenicity and protective efficacy, we immunized rhesus macaques with oligomeric gp140. Strong neutralizing antibodies against a homologous virus and modest neutralization of heterologous laboratory-adapted isolates were elicited. No neutralization of primary isolates was observed. However, a substantial fraction of the neutralizing activity could not be blocked by a V3 loop peptide. After intravenous challenge with simian-HIV virus SHIV-HXB2, three of the four vaccinated macaques exhibited no evidence of virus replication.
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Meschi, Joseph, Erika C. Crouch, Paul Skolnik, Khabirah Yahya, Uffe Holmskov, Rikke Leth-Larsen, Ida Tornoe, Tesfaldet Tecle, Mitchell R. White, and Kevan L. Hartshorn. "Surfactant protein D binds to human immunodeficiency virus (HIV) envelope protein gp120 and inhibits HIV replication." Journal of General Virology 86, no. 11 (November 1, 2005): 3097–107. http://dx.doi.org/10.1099/vir.0.80764-0.
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The envelope protein (gp120) of human immunodeficiency virus (HIV) contains highly conserved mannosylated oligosaccharides. These glycoconjugates contribute to resistance to antibody neutralization, and binding to cell surface lectins on macrophages and dendritic cells. Mannose-binding lectin (MBL) binds to gp120 and plays a role in defence against the virus. In this study it is demonstrated that surfactant protein D (SP-D) binds to gp120 and inhibits HIV infectivity at significantly lower concentrations than MBL. The binding of SP-D was mediated by its calcium-dependent carbohydrate-binding activity and was dependent on glycosylation of gp120. Native dodecameric SP-D bound to HIV gp120 more strongly than native trimeric SP-D. Since one common polymorphic form of SP-D is predominantly expressed as trimers and associated with lower blood levels, these individuals may have less effective innate defence against HIV. A chimeric protein containing the N-terminal and collagen domains of SP-D linked to the neck and carbohydrate-recognition domains of MBL (called SP-D/MBLneck+CRD) had greater ability to bind to gp120 and inhibit virus replication than either SP-D or MBL. The enhanced binding of SP-D/MBLneck+CRD was dependent on assembly into higher molecular mass multimers (i.e. a trimeric form of the chimera did not bind to a greater extent than MBL). Hence, the enhanced binding of SP-D compared with MBL results from distinctive properties of its N-terminal and/or collagen domains. SP-D is present in lung and airway fluids, as well as in blood and various mucosal locations, and could, like MBL, play a role in restricting HIV transmission or replication in vivo.
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Loomis-Price, L. D., M. Levi, P. R. Burnett, J. E. van Hamont, R. A. Shafer, B. Wahren, and D. L. Birx. "Linear epitope mapping of humoral responses induced by vaccination with recombinant HIV-1 envelope protein gp160." Journal of Industrial Microbiology and Biotechnology 19, no. 1 (July 1, 1997): 58–65. http://dx.doi.org/10.1038/sj.jim.2900410.
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Blay, Wendy M., Theresa Kasprzyk, Lynda Misher, Barbra A. Richardson, and Nancy L. Haigwood. "Mutations in Envelope gp120 Can Impact Proteolytic Processing of the gp160 Precursor and Thereby Affect Neutralization Sensitivity of Human Immunodeficiency Virus Type 1 Pseudoviruses." Journal of Virology 81, no. 23 (September 12, 2007): 13037–49. http://dx.doi.org/10.1128/jvi.01215-07.
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ABSTRACT The design of an efficient human immunodeficiency virus (HIV) immunogen able to generate broad neutralizing antibodies (NAbs) remains an elusive goal. As more data emerge, it is becoming apparent that one important aspect of such an immunogen will be the proper representation of the envelope protein (Env) as it exists on native virions. Important questions that are yet to be fully addressed include what factors dictate Env processing, how different Env forms are represented on the virion, and ultimately how these issues influence the development and efficacy of NAbs. Recent data have begun to illuminate the extent to which changes in gp41 can impact the overall structure and neutralizing sensitivity of Env. Here, we present evidence to suggest that minor mutations in gp120 can significantly impact Env processing. We analyzed the gp120 sequences of 20 env variants that evolved in multiple macaques over 8 months of infection with simian/human immunodeficiency virus 89.6P. Variant gp120 sequences were subcloned into gp160 expression plasmids with identical cleavage motifs and gp41 sequences. Cells cotransfected with these plasmids and Δenv genomes were able to produce competent virus. The resulting pseudoviruses incorporated high levels of Env onto virions that exhibited a range of degrees of virion-associated Env cleavage (15 to 40%). Higher levels of cleavage correlated with increased infectivity and increased resistance to macaque plasma, HIV immunoglobulin, soluble CD4, and human monoclonal antibodies 4E10, 2F5, and b12. Based on these data, we discuss a model whereby changes in gp120 of 89.6P impact Env processing and thereby mediate escape from a range of neutralizing agents.
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Pritchard, Laura K., David J. Harvey, Camille Bonomelli, Max Crispin, and Katie J. Doores. "Cell- and Protein-Directed Glycosylation of Native Cleaved HIV-1 Envelope." Journal of Virology 89, no. 17 (June 17, 2015): 8932–44. http://dx.doi.org/10.1128/jvi.01190-15.
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ABSTRACTThe gp120/gp41 HIV-1 envelope glycoprotein (Env) is highly glycosylated, with up to 50% of its mass consisting ofN-linked glycans. This dense carbohydrate coat has emerged as a promising vaccine target, with its glycans acting as epitopes for a number of potent and broadly neutralizing antibodies (bnAbs). Characterizing the glycan structures present on native HIV-1 Env is thus a critical goal for the design of Env immunogens. In this study, we used a complementary, multistep approach involving ion mobility mass spectrometry and high-performance liquid chromatography to comprehensively characterize the glycan structures present on HIV-1 gp120 produced in peripheral blood mononuclear cells (PBMCs). The capacity of different expression systems, including pseudoviral particles and recombinant cell surface trimers, to reproduce native-like glycosylation was then assessed. A population of oligomannose glycans on gp120 was reproduced across all expression systems, supporting this as an intrinsic property of Env that can be targeted for vaccine design. In contrast, Env produced in HEK 293T cells failed to accurately reproduce the highly processed complex-type glycan structures observed on PBMC-derived gp120, and in particular the precise linkage of sialic acid residues that cap these glycans. Finally, we show that unlike for gp120, the glycans decorating gp41 are mostly complex-type sugars, consistent with the glycan specificity of bnAbs that target this region. These findings provide insights into the glycosylation of native and recombinant HIV-1 Env and can be used to inform strategies for immunogen design and preparation.IMPORTANCEDevelopment of an HIV vaccine is desperately needed to control new infections, and elicitation of HIV bnAbs will likely be an important component of an effective vaccine. Increasingly, HIV bnAbs are being identified that bind to theN-linked glycans coating the HIV envelope glycoproteins gp120 and gp41, highlighting them as important targets for vaccine design. It is therefore important to characterize the glycan structures present on native, virion-associated gp120 and gp41 for development of vaccines that accurately mimic native-Env glycosylation. In this study, we used a number of analytical techniques to precisely study the structures of both the oligomannose and complex-type glycans present on native Env to provide a reference for determining the ability of potential HIV immunogens to accurately replicate the glycosylation pattern on these native structures.
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Srivastava, Indresh K., Leonidas Stamatatos, Harold Legg, Elaine Kan, Anne Fong, Stephen R. Coates, Louisa Leung, et al. "Purification and Characterization of Oligomeric Envelope Glycoprotein from a Primary R5 Subtype B Human Immunodeficiency Virus." Journal of Virology 76, no. 6 (March 15, 2002): 2835–47. http://dx.doi.org/10.1128/jvi.76.6.2835-2847.2002.
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ABSTRACT Human immunodeficiency virus (HIV) continues to be a major public health problem throughout the world, with high levels of mortality and morbidity associated with AIDS. Considerable efforts to develop an effective vaccine for HIV have been directed towards the generation of cellular, humoral, and mucosal immune responses. A major emphasis of our work has been toward the evaluation of oligomeric (o-gp140) forms of the HIV type 1 (HIV-1) envelope protein for their ability to induce neutralizing antibody responses. We have derived stable CHO cell lines expressing o-gp140 envelope protein from the primary non-syncytium-inducing (R5) subtype B strain HIV-1US4. We have developed an efficient purification strategy to purify oligomers to near homogeneity. Using a combination of three detectors measuring intrinsic viscosity, light scattering, and refractive index, we calculated the molecular mass of the oligomer to be 474 kDa, consistent with either a trimer or a tetramer. The hydrodynamic radius (Rh ) of o-gp140 was determined to be 8.40 nm, compared with 5.07 nm for the monomer. The relatively smaller Rh of the oligomer suggests that there are indeed differences between the foldings of o-gp140 and gp120. To assess the structural integrity of the purified trimers, we performed a detailed characterization of the glycosylation profile of o-gp140, its ability to bind soluble CD4, and also its ability to bind to a panel of monoclonal antibodies with known epitope specificities for the CD4 binding site, the CD4 inducible site, the V3 loop, and gp41. Immunogenicity studies with rabbits indicated that the purified o-gp140 protein was highly immunogenic and induced high-titer, high-avidity antibodies directed predominantly against conformational epitopes. These observations confirm the structural integrity of purified o-gp140 and its potential as a vaccine antigen.
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Dey, Barna, Danica L. Lerner, Paolo Lusso, Michael R. Boyd, John H. Elder, and Edward A. Berger. "Multiple Antiviral Activities of Cyanovirin-N: Blocking of Human Immunodeficiency Virus Type 1 gp120 Interaction with CD4 and Coreceptor and Inhibition of Diverse Enveloped Viruses." Journal of Virology 74, no. 10 (May 15, 2000): 4562–69. http://dx.doi.org/10.1128/jvi.74.10.4562-4569.2000.
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ABSTRACT Cyanovirin-N (CV-N) is a cyanobacterial protein with potent neutralizing activity against human immunodeficiency virus (HIV). CV-N has been shown to bind HIV type 1 (HIV-1) gp120 with high affinity; moreover, it blocks the envelope glycoprotein-mediated membrane fusion reaction associated with HIV-1 entry. However, the inhibitory mechanism(s) remains unclear. In this study, we show that CV-N blocked binding of gp120 to cell-associated CD4. Consistent with this, pretreatment of gp120 with CV-N inhibited soluble CD4 (sCD4)-dependent binding of gp120 to cell-associated CCR5. To investigate possible effects of CV-N at post-CD4 binding steps, we used an assay that measures sCD4 activation of the HIV-1 envelope glycoprotein for fusion with CCR5-expressing cells. CV-N displayed equivalently potent inhibitory effects when added before or after sCD4 activation, suggesting that CV-N also has blocking action at the level of gp120 interaction with coreceptor. This effect was shown not to be due to CV-N-induced coreceptor down-modulation after the CD4 binding step. The multiple activities against the HIV-1 envelope glycoprotein prompted us to examine other enveloped viruses. CV-N potently blocked infection by feline immunodeficiency virus, which utilizes the chemokine receptor CXCR4 as an entry receptor but is CD4 independent. CV-N also inhibited fusion and/or infection by human herpesvirus 6 and measles virus but not by vaccinia virus. Thus, CV-N has broad-spectrum antiviral activity, both for multiple steps in the HIV entry mechanism and for diverse enveloped viruses. This broad specificity has implications for potential clinical utility of CV-N.
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Go, Eden P., Alon Herschhorn, Christopher Gu, Luis Castillo-Menendez, Shijian Zhang, Youdong Mao, Haiyan Chen, et al. "Comparative Analysis of the Glycosylation Profiles of Membrane-Anchored HIV-1 Envelope Glycoprotein Trimers and Soluble gp140." Journal of Virology 89, no. 16 (May 27, 2015): 8245–57. http://dx.doi.org/10.1128/jvi.00628-15.
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ABSTRACTThe human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein (Env) trimer, which consists of the gp120 and gp41 subunits, is the focus of multiple strategies for vaccine development. Extensive Env glycosylation provides HIV-1 with protection from the immune system, yet the glycans are also essential components of binding epitopes for numerous broadly neutralizing antibodies. Recent studies have shown that when Env is isolated from virions, its glycosylation profile differs significantly from that of soluble forms of Env (gp120 or gp140) predominantly used in vaccine discovery research. Here we show that exogenous membrane-anchored Envs, which can be produced in large quantities in mammalian cells, also display a virion-like glycan profile, where the glycoprotein is extensively decorated with high-mannose glycans. Additionally, because we characterized the glycosylation with a high-fidelity profiling method, glycopeptide analysis, an unprecedented level of molecular detail regarding membrane Env glycosylation and its heterogeneity is presented. Each glycosylation site was characterized individually, with about 500 glycoforms characterized per Env protein. While many of the sites contain exclusively high-mannose glycans, others retain complex glycans, resulting in a glycan profile that cannot currently be mimicked on soluble gp120 or gp140 preparations. These site-level studies are important for understanding antibody-glycan interactions on native Env trimers. Additionally, we report a newly observedO-linked glycosylation site, T606, and we show that the fullO-linked glycosylation profile of membrane-associated Env is similar to that of soluble gp140. These findings provide new insight into Env glycosylation and clarify key molecular-level differences between membrane-anchored Env and soluble gp140.IMPORTANCEA vaccine that protects against human immunodeficiency virus type 1 (HIV-1) infection should elicit antibodies that bind to the surface envelope glycoproteins on the membrane of the virus. The envelope glycoproteins have an extensive coat of carbohydrates (glycans), some of which are recognized by virus-neutralizing antibodies and some of which protect the virus from neutralizing antibodies. We found that the HIV-1 membrane envelope glycoproteins have a unique pattern of carbohydrates, with many high-mannose glycans and also, in some places, complex glycans. This pattern was very different from the carbohydrate profile seen for a more easily produced soluble version of the envelope glycoprotein. Our results provide a detailed characterization of the glycans on the natural membrane envelope glycoproteins of HIV-1, a carbohydrate profile that would be desirable to mimic with a vaccine.
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Blair, Wade S., Joan Cao, Lynn Jackson, Judith Jimenez, Qinghai Peng, Hua Wu, Jason Isaacson, et al. "Identification and Characterization of UK-201844, a Novel Inhibitor That Interferes with Human Immunodeficiency Virus Type 1 gp160 Processing." Antimicrobial Agents and Chemotherapy 51, no. 10 (July 23, 2007): 3554–61. http://dx.doi.org/10.1128/aac.00643-07.
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ABSTRACT More than 106 compounds were evaluated in a human immunodeficiency virus type 1 (HIV-1) high-throughput antiviral screen, resulting in the identification of a novel HIV-1 inhibitor (UK-201844). UK-201844 exhibited antiviral activity against HIV-1 NL4-3 in MT-2 and PM1 cells, with 50% effective concentrations of 1.3 and 2.7 μM, respectively, but did not exhibit measurable antiviral activity against the closely related HIV-1 IIIB laboratory strain. UK-201844 specifically inhibited the production of infectious virions packaged with an HIV-1 envelope (Env), but not HIV virions packaged with a heterologous Env (i.e., the vesicular stomatitis virus glycoprotein), suggesting that the compound targets HIV-1 Env late in infection. Subsequent antiviral assays using HIV-1 NL4-3/IIIB chimeric viruses showed that HIV-1 Env sequences were critical determinants of UK-201844 susceptibility. Consistent with this, in vitro resistant-virus studies revealed that amino acid substitutions in HIV-1 Env are sufficient to confer resistance to UK-201844. Western analysis of HIV Env proteins expressed in transfected cells or in isolated virions showed that UK-201844 inhibited HIV-1 gp160 processing, resulting in the production of virions with nonfunctional Env glycoproteins. Our results demonstrate that UK-201844 represents the prototype for a unique HIV-1 inhibitor class that directly or indirectly interferes with HIV-1 gp160 processing.
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Hirano, Makoto. "Glycoform-Dependent Antigenicity in gp120 of HIV-1 Envelope Protein." Trends in Glycoscience and Glycotechnology 26, no. 147 (2014): 29–32. http://dx.doi.org/10.4052/tigg.26.29.
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