Joseph P. Vacca scite author profile

The process of integrating the reverse-transcribed HIV-1 DNA into the host chromosomal DNA is catalyzed by the virally encoded enzyme integrase (IN). Integration requires two metal-dependent reactions, 3 end processing and strand transfer. Compounds that contain a diketo acid moiety have been shown to selectively inhibit the strand transfer reaction of IN in vitro and in infected cells and are effective as inhibitors of HIV-1 replication. To characterize the molecular basis of inhibition, we used functional assays and binding assays to evaluate a series of structurally related analogs. These studies focused on investigating the role of the conserved carboxylate and metal binding. We demonstrate that an acidic moiety such as a carboxylate or isosteric heterocycle is not required for binding to the enzyme complex but is essential for inhibition and confers distinct metaldependent properties on the inhibitor. Binding requires divalent metal and resistance is metal dependent with active site mutants displaying resistance only when the enzymes are evaluated in the context of Mg 2؉ . The mechanism of action of these inhibitors is therefore likely a consequence of the interaction between the acid moiety and metal ion(s) in the IN active site, resulting in a functional sequestration of the critical metal cofactor(s). These studies thus have implications for modeling active site inhibitors of IN, designing and evaluating analogs with improved efficacy, and identifying inhibitors of other metal-dependent phosphotransferases.A n essential step in HIV replication is the integration of the reverse-transcribed viral genome into host chromosomal DNA by the virally encoded integrase (IN) protein (1-3). Integration is required for efficient long terminal repeat-driven transcription of the provirus for the production of viral proteins and RNA progeny. IN represents an important chemotherapeutic target, as its inactivation, either by mutagenesis or inhibition, blocks productive infection by HIV-1 (4-7).Integration is carried out in the cell in a series of distinct steps (8-10). First, IN cleaves the two terminal nucleotides from each 3Ј end of the viral DNA. The 3Ј processing reaction is carried out concurrently with or soon after reverse transcription in the cytoplasm. In the second step, strand transfer, IN catalyzes staggered nicking of the target chromosomal DNA and joining of each 3Ј end of the viral DNA to the 5Ј ends of the host DNA. Strand transfer is temporally and spatially separated from 3Ј processing and occurs after transport of the preintegration complex from the cytoplasm into the nucleus.Divalent metals such as Mg 2ϩ or Mn 2ϩ are required for both 3Ј processing and strand transfer and for the assembly of IN onto specific viral donor DNA to form a complex competent to carry out either function (11)(12)(13) (18), L-731,988 and related DKAs inhibit integration and viral replication in cell culture (7). Mutations that confer resistance to DKAs have been identified and map to IN residues adjacent to D64 and E152. The in...

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A naphthyridine carboxamide provides evidence for discordant resistance between mechanistically identical inhibitors of HIV-1 integrase

Hazuda

Anthony

Gomez

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

320

292

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The increasing incidence of resistance to current HIV-1 therapy underscores the need to develop antiretroviral agents with new mechanisms of action. Integrase, one of three viral enzymes essential for HIV-1 replication, presents an important yet unexploited opportunity for drug development. We describe here the identification and characterization of L-870,810, a small-molecule inhibitor of HIV-1 integrase with potent antiviral activity in cell culture and good pharmacokinetic properties. L-870,810 is an inhibitor with an 8-hydroxy-(1,6)-naphthyridine-7-carboxamide pharmacophore. The compound inhibits HIV-1 integrase-mediated strand transfer, and its antiviral activity in vitro is a direct consequence of this ascribed effect on integration. L-870,810 is mechanistically identical to previously described inhibitors from the diketo acid series; however, viruses selected for resistance to L-870,810 contain mutations (integrase residues 72, 121, and 125) that uniquely confer resistance to the naphthyridine. Conversely, mutations associated with resistance to the diketo acid do not engender naphthyridine resistance. Importantly, the mutations associated with resistance to each of these inhibitors map to distinct regions within the integrase active site. Therefore, we propose a model of the two inhibitors that is consistent with this observation and suggests specific interactions with discrete binding sites for each ligand. These studies provide a structural basis and rationale for developing integrase inhibitors with the potential for unique and nonoverlapping resistance profiles.A gents for the treatment of HIV-1 infection target two of the three virally encoded enzymes and belong to three mechanistic classes known as nucleoside reverse transcriptase, nonnucleoside reverse transcriptase (NNRTI), and protease inhibitors. Although treatment regimens comprising combinations of these agents have significantly reduced AIDS-related morbidity and mortality, it is estimated that 78% of treatment-naive patients harbor viruses that have evolved resistance to at least one of these drug classes (1, 2). The emergence of HIV-1 strains resistant to reverse transcriptase and protease inhibitors highlights the need to develop antiviral agents with novel mechanisms of action.Integrase (3, 4), one of the three virally encoded enzymes required for HIV-1 replication, catalyses the integration of viral DNA into the genome of the host cell. The integration reaction requires three discrete steps: assembly of a stable preintegration complex at the termini of the viral DNA and two sequential transesterification reactions. In the first reaction, 3Ј-end processing, endonucleolytic cleavage of the two 3Ј nucleotides at each DNA end generates 3Ј-hydroxyl groups that function as nucleophiles in the second reaction. The strand breakage of the cellular DNA and concomitant covalent linkage to the viral DNA is a consequence of the second transesterification reaction, strand transfer.The discovery of a series of diketo acids containing HIV-1 integrase i...

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L-735,524: an orally bioavailable human immunodeficiency virus type 1 protease inhibitor.

Vacca

Dorsey

Schleif

et al. 1994

Proc. Natl. Acad. Sci. U.S.A.

501

277

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Structure-Based Design of Potent and Selective Cell-Permeable Inhibitors of Human β-Secretase (BACE-1)

et al. 2004

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Integrase Inhibitors and Cellular Immunity Suppress Retroviral Replication in Rhesus Macaques

Hazuda

Young

Guare

et al. 2004

Science

264

186

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We describe the efficacy of L-870812, an inhibitor of HIV-1 and SIV integrase, in rhesus macaques infected with the simian-human immunodeficiency virus (SHIV) 89.6P. When initiated before CD4 cell depletion, L-870812 therapy mediated a sustained suppression of viremia, preserving CD4 levels and permitting the induction of virus-specific cellular immunity. L-870812 was also active in chronic infection; however, the magnitude and durability of the effect varied in conjunction with the pretreatment immune response and viral load. These studies demonstrate integrase inhibitor activity in vivo and suggest that cellular immunity facilitates chemotherapeutic efficacy in retroviral infections.

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Joseph P. Vacca

Diketo acid inhibitor mechanism and HIV-1 integrase: Implications for metal binding in the active site of phosphotransferase enzymes

A naphthyridine carboxamide provides evidence for discordant resistance between mechanistically identical inhibitors of HIV-1 integrase

L-735,524: an orally bioavailable human immunodeficiency virus type 1 protease inhibitor.

Structure-Based Design of Potent and Selective Cell-Permeable Inhibitors of Human β-Secretase (BACE-1)

Integrase Inhibitors and Cellular Immunity Suppress Retroviral Replication in Rhesus Macaques

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