[PDF][PDF] Effector kinase coupling enables high-throughput screens for direct HIV-1 Nef antagonists with antiretroviral activity
LA Emert-Sedlak, P Narute, ST Shu, JA Poe, H Shi… - Chemistry & biology, 2013 - cell.com
LA Emert-Sedlak, P Narute, ST Shu, JA Poe, H Shi, N Yanamala, JJ Alvarado, JS Lazo…
Chemistry & biology, 2013•cell.comHIV-1 Nef, a critical AIDS progression factor, represents an important target protein for
antiretroviral drug discovery. Because Nef lacks intrinsic enzymatic activity, we developed
an assay that couples Nef to the activation of Hck, a Src family member and Nef effector
protein. Using this assay, we screened a large, diverse chemical library and identified small
molecules that block Nef-dependent Hck activity with low micromolar potency. Of these, a
diphenylpyrazolo compound demonstrated submicromolar potency in HIV-1 replication …
antiretroviral drug discovery. Because Nef lacks intrinsic enzymatic activity, we developed
an assay that couples Nef to the activation of Hck, a Src family member and Nef effector
protein. Using this assay, we screened a large, diverse chemical library and identified small
molecules that block Nef-dependent Hck activity with low micromolar potency. Of these, a
diphenylpyrazolo compound demonstrated submicromolar potency in HIV-1 replication …
Summary
HIV-1 Nef, a critical AIDS progression factor, represents an important target protein for antiretroviral drug discovery. Because Nef lacks intrinsic enzymatic activity, we developed an assay that couples Nef to the activation of Hck, a Src family member and Nef effector protein. Using this assay, we screened a large, diverse chemical library and identified small molecules that block Nef-dependent Hck activity with low micromolar potency. Of these, a diphenylpyrazolo compound demonstrated submicromolar potency in HIV-1 replication assays against a broad range of primary Nef variants. This compound binds directly to Nef via a pocket formed by the Nef dimerization interface and disrupts Nef dimerization in cells. Coupling of nonenzymatic viral accessory factors to host cell effector proteins amenable to high-throughput screening may represent a general strategy for the discovery of new antimicrobial agents.
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