scholarly journals Escape from Human Immunodeficiency Virus Type 1 (HIV-1) Entry Inhibitors

Viruses ◽  
2012 ◽  
Vol 4 (12) ◽  
pp. 3859-3911 ◽  
Author(s):  
Christopher De Feo ◽  
Carol Weiss
Keyword(s):  
Human Immunodeficiency Virus ◽  
Human Immunodeficiency Virus Type ◽  
Virus Type ◽  
Entry Inhibitors ◽  
Immunodeficiency Virus ◽  
Hiv 1

scholarly journals Characterization of a Human Immunodeficiency Virus Type 1 V3 Deletion Mutation That Confers Resistance to CCR5 Inhibitors and the Ability To Use Aplaviroc-Bound Receptor

2009 ◽  
Vol 83 (8) ◽  
pp. 3798-3809 ◽  
Author(s):  
Katrina M. Nolan ◽  
Gregory Q. Del Prete ◽  
Andrea P. O. Jordan ◽  
Beth Haggarty ◽  
Josephine Romano ◽  
...  
Keyword(s):  
Human Immunodeficiency Virus ◽  
Monoclonal Antibodies ◽  
Human Immunodeficiency Virus Type ◽  
Virus Type ◽  
Entry Inhibitors ◽  
Coreceptor Binding ◽  
Immunodeficiency Virus ◽  
Hiv 1

ABSTRACT The human immunodeficiency virus type 1 (HIV-1) V3 loop is essential for coreceptor binding and principally determines tropism for the CCR5 and CXCR4 coreceptors. Using the dual-tropic virus HIV-1R3A, we previously made an extensive panel of V3 deletions and identified subdomains within V3 that could differentially mediate R5 and X4 tropism. A deletion of residues 9 to 12 on the N-terminal side of the V3 stem ablated X4 tropism while leaving R5 tropism intact. This mutation also resulted in complete resistance to several small-molecule CCR5 inhibitors. Here, we extend these studies to further characterize a variant of this mutant, Δ9-12a, adapted for growth in CCR5+ SupT1 cells. Studies using coreceptor chimeras, monoclonal antibodies directed against the CCR5 amino terminus (NT) and extracellular loops, and CCR5 point mutants revealed that, relative to parental R3A, R5-tropic Δ9-12a was more dependent on the CCR5 NT, a region that contacts the gp120 bridging sheet and V3 base. Neutralization sensitivity assays showed that, compared to parental R3A, Δ9-12a was more sensitive to monoclonal antibodies b12, 4E10, and 2G12. Finally, cross-antagonism assays showed that Δ9-12a could use aplaviroc-bound CCR5 for entry. These studies indicate that increased dependence on the CCR5 NT represents a mechanism by which HIV envelopes acquire resistance to CCR5 antagonists and may have more general implications for mechanisms of drug resistance that arise in vivo. In addition, envelopes such as Δ9-12a may be useful for developing new entry inhibitors that target the interaction of gp120 and the CCR5 NT.

scholarly journals Redox-Triggered Infection by Disulfide-Shackled Human Immunodeficiency Virus Type 1 Pseudovirions

2003 ◽  
Vol 77 (10) ◽  
pp. 5678-5684 ◽  
Author(s):  
James M. Binley ◽  
Charmagne S. Cayanan ◽  
Cheryl Wiley ◽  
Norbert Schülke ◽  
William C. Olson ◽  
...  
Keyword(s):  
Human Immunodeficiency Virus ◽  
Human Immunodeficiency Virus Type ◽  
Virus Type ◽  
Disulfide Bridge ◽  
Surface Proteins ◽  
Virus Attachment ◽  
Entry Inhibitors ◽  
Immunodeficiency Virus ◽  
Hiv 1

ABSTRACT We previously described a human immunodeficiency virus type 1 (HIV-1) envelope mutant that introduces a disulfide bridge between the gp120 surface proteins and gp41 transmembrane proteins (J. M. Binley, R. W. Sanders, B. Clas, N. Schuelke, A. Master, Y. Guo, F. Kajumo, D. J. Anselma, P. J. Maddon, W. C. Olson, and J. P. Moore, J. Virol. 74:627-643, 2000). Here we produced pseudovirions bearing the mutant envelope and a reporter gene to examine the mutant’s infectious properties. These pseudovirions attach to cells expressing CD4 and coreceptor but infect only when triggered with reducing agent, implying that gp120-gp41 dissociation is necessary for infection. Further studies suggested that virus entry was arrested after CD4 and coreceptor engagement. By measuring the activities of various entry inhibitors against the arrested intermediate, we found that gp120-targeting inhibitors typically act prior to virus attachment, whereas gp41 inhibitors are able to act postattachment. Unexpectedly, a significant fraction of antibodies in HIV-1-positive sera neutralized virus postattachment, suggesting that downstream fusion events and structures figure prominently in the host immune response. Overall, this disulfide-shackled virus is a unique tool with potential utility in vaccine design, drug discovery, and elucidation of the HIV-1 entry process.

Use of polimerase chain reaction for neonatal diagnosis of human immunodeficiency virus type 1 (HIV-1) perinatal infection

1994 ◽  
Vol 70 (6) ◽  
Author(s):  
Marisa Márcia Mussi-Pinhata ◽  
Maria Célia C. Ferez ◽  
Dimas T. Covas ◽  
Geraldo Duarte ◽  
Márcia L. Isaac ◽  
...  
Keyword(s):  
Human Immunodeficiency Virus ◽  
Human Immunodeficiency Virus Type ◽  
Virus Type ◽  
Perinatal Infection ◽  
Chain Reaction ◽  
Neonatal Diagnosis ◽  
Immunodeficiency Virus ◽  
Hiv 1

scholarly journals Induction of Autophagy to Achieve a Human Immunodeficiency Virus Type 1 Cure

Cells ◽  
2021 ◽  
Vol 10 (7) ◽  
pp. 1798
Author(s):  
Grant R. Campbell ◽  
Stephen A. Spector
Keyword(s):  
Human Immunodeficiency Virus ◽  
Antiretroviral Therapy ◽  
Human Immunodeficiency Virus Type ◽  
Virus Type ◽  
Functional Cure ◽  
Immunodeficiency Virus ◽  
Latently Infected ◽  
Infected Cells ◽  
Hiv 1

Effective antiretroviral therapy has led to significant human immunodeficiency virus type 1 (HIV-1) suppression and improvement in immune function. However, the persistence of integrated proviral DNA in latently infected reservoir cells, which drive viral rebound post-interruption of antiretroviral therapy, remains the major roadblock to a cure. Therefore, the targeted elimination or permanent silencing of this latently infected reservoir is a major focus of HIV-1 research. The most studied approach in the development of a cure is the activation of HIV-1 expression to expose latently infected cells for immune clearance while inducing HIV-1 cytotoxicity—the “kick and kill” approach. However, the complex and highly heterogeneous nature of the latent reservoir, combined with the failure of clinical trials to reduce the reservoir size casts doubt on the feasibility of this approach. This concern that total elimination of HIV-1 from the body may not be possible has led to increased emphasis on a “functional cure” where the virus remains but is unable to reactivate which presents the challenge of permanently silencing transcription of HIV-1 for prolonged drug-free remission—a “block and lock” approach. In this review, we discuss the interaction of HIV-1 and autophagy, and the exploitation of autophagy to kill selectively HIV-1 latently infected cells as part of a cure strategy. The cure strategy proposed has the advantage of significantly decreasing the size of the HIV-1 reservoir that can contribute to a functional cure and when optimised has the potential to eradicate completely HIV-1.

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