This is a competitive renewal application for an R01 grant. Our goal is to further increase our understanding of how HIV-1 uses coreceptors to enter cells. A specific emphasis will be on learning more about the mechanisms of resistance to small molecule CCR5 or CXCR4 inhibitors and the properties of resistant variants. Such studies will not only increase our knowledge of the HIV-1 replication cycle at the basic science level, they will also assist clinicians in their use of CCR5 inhibitors to treat HIV-1 infection. Building on our work in the general area of coreceptor biology during the past 14 years, we now propose the following research plan: In our first Specific Aim, we will investigate whether wild type and CCR5 inhibitor-resistant viruses interact with different sub-populations of CCR5 coreceptors. We will explore whether and how HIV-1 Env, monoclonal antibodies (MAbs) and small-molecule inhibitors interact with different CCR5 sub-populations. These sub-populations may arise through conformational interconversions, post-translational modifications, be located in distinct micro-domains on the cell surface, and have distinguishable links to G-proteins and the endocytic machinery. The sub-populations may be present in different proportions on diverse target cells. We will study how and where parental and inhibitor-resistant viruses interact with inhibitor-bound and -free CCR5 sub-populations.
In Specific Aim 2, we propose to define how amino acid changes in the gp41 transmembrane protein of CCR5 inhibitor-resistant viruses affect the interaction of gp120 subunits with CCR5. We have described a resistant virus in which, unexpectedly, the critical changes were located in the gp41 fusion peptide, which is not known to interact with CCR5. We now have evidence for additional, resistance-associated changes in the N-terminal region of gp41. We will study the effects of these various changes on Env topology, CD4-Env interactions with CCR5, Env-mediated fusion rates, and the membrane location of the virus-cell fusion process. Our third Specific Aim is to assess whether Env-mediated signaling via CCR5 or CXCR4 is important for HIV-1 entry. We will use receptor-mutants defective for signal transduction functions, or constitutively active, and viruses that can enter cells in the presence of CCR5 or CXCR4 antagonists, to explore whether transmembrane signaling is essential for, or modifies, entry or post-entry events in the HIV-1 replication cycle.
Human immunodeficiency virus type 1 (HIV-1) uses the CCR5 co-receptor to enter the cells it infects. Drugs have now been developed that target CCR5 and thereby interfere with this stage of the HIV-1 replication cycle. These inhibitors are effective both in cell culture systems and when used to treat HIV-1-infected people. As with all drugs, HIV-1 develops resistance, rendering them less effective. We have been studying the resistance process for several years, and now seek to continue and expand our studies. Specifically, we are learning about how sequence changes accumulate in the HIV-1 envelope glycoproteins (which bind CCR5) under drug selection pressure, and how these sequence changes enable to virus to use the drug-CCR5 complex to enter cells. We will study the various sub-populations of CCR5 that exist on the cell surface, as defined by staining with monoclonal antibodies against various CCR5 epitopes, and try to define how these various CCR5 forms are used by wild type and resistant viruses.
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|Guttman, Miklos; Garcia, Natalie K; Cupo, Albert et al. (2014) CD4-induced activation in a soluble HIV-1 Env trimer. Structure 22:974-84|
|Berro, Reem; Yasmeen, Anila; Abrol, Ravinder et al. (2013) Use of G-protein-coupled and -uncoupled CCR5 receptors by CCR5 inhibitor-resistant and -sensitive human immunodeficiency virus type 1 variants. J Virol 87:6569-81|
|Klasse, P J (2013) Structural biology. A new bundle of prospects for blocking HIV-1 entry. Science 341:1347-8|
|Parker, Zahra F; Iyer, Shilpa S; Wilen, Craig B et al. (2013) Transmitted/founder and chronic HIV-1 envelope proteins are distinguished by differential utilization of CCR5. J Virol 87:2401-11|
|Berro, Reem; Klasse, Per Johan; Jakobsen, Martin R et al. (2012) V3 determinants of HIV-1 escape from the CCR5 inhibitors Maraviroc and Vicriviroc. Virology 427:158-65|
|Klasse, Per Johan (2012) The molecular basis of HIV entry. Cell Microbiol 14:1183-92|
|Anastassopoulou, Cleo G; Ketas, Thomas J; Sanders, Rogier W et al. (2012) Effects of sequence changes in the HIV-1 gp41 fusion peptide on CCR5 inhibitor resistance. Virology 428:86-97|
|Henrich, Timothy J; Lewine, Nicolas R P; Lee, Sun-Hee et al. (2012) Differential use of CCR5 by HIV-1 clinical isolates resistant to small-molecule CCR5 antagonists. Antimicrob Agents Chemother 56:1931-5|
|Berro, Reem; Klasse, Per Johan; Lascano, Danny et al. (2011) Multiple CCR5 conformations on the cell surface are used differentially by human immunodeficiency viruses resistant or sensitive to CCR5 inhibitors. J Virol 85:8227-40|
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