Distinct Effects of Two HIV-1 Capsid Assembly Inhibitor Families That Bind the Same Site within the N-Terminal Domain of the Viral CA Protein

Lemke, Christopher T.; Titolo, Steve; von Schwedler, Uta; Goudreau, Nathalie; Mercier, Jean-François; Wardrop, Elizabeth; Faucher, Anne-Marie; Coulombe, René; Banik, Soma S. R.; Fader, Lee; Gagnon, Alexandre; Kawai, Stephen H.; Rancourt, Jean; Tremblay, Martin; Yoakim, Christiane; Simoneau, Bruno; Archambault, Jacques; Sundquist, Wesley I. et Mason, Stephen W. (2012). « Distinct Effects of Two HIV-1 Capsid Assembly Inhibitor Families That Bind the Same Site within the N-Terminal Domain of the Viral CA Protein ». Journal of Virology, 86(12), pp. 6643-6655.

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The emergence of resistance to existing classes of antiretroviral drugs necessitates finding new HIV-1 targets for drug discovery. The viral capsid (CA) protein represents one such potential new target. CA is sufficient to form mature HIV-1 capsids in vitro, and extensive structure-function and mutational analyses of CA have shown that the proper assembly, morphology, and stability of the mature capsid core are essential for the infectivity of HIV-1 virions. Here we describe the development of an in vitro capsid assembly assay based on the association of CA-NC subunits on immobilized oligonucleotides. This assay was used to screen a compound library, yielding several different families of compounds that inhibited capsid assembly. Optimization of two chemical series, termed the benzodiazepines (BD) and the benzimidazoles (BM), resulted in compounds with potent antiviral activity against wild-type and drug-resistant HIV-1. Nuclear magnetic resonance (NMR) spectroscopic and X-ray crystallographic analyses showed that both series of inhibitors bound to the N-terminal domain of CA. These inhibitors induce the formation of a pocket that overlaps with the binding site for the previously reported CAP inhibitors but is expanded significantly by these new, more potent CA inhibitors. Virus release and electron microscopic (EM) studies showed that the BD compounds prevented virion release, whereas the BM compounds inhibited the formation of the mature capsid. Passage of virus in the presence of the inhibitors selected for resistance mutations that mapped to highly conserved residues surrounding the inhibitor binding pocket, but also to the C-terminal domain of CA. The resistance mutations selected by the two series differed, consistent with differences in their interactions within the pocket, and most also impaired virus replicative capacity. Resistance mutations had two modes of action, either directly impacting inhibitor binding affinity or apparently increasing the overall stability of the viral capsid without affecting inhibitor binding. These studies demonstrate that CA is a viable antiviral target and demonstrate that inhibitors that bind within the same site on CA can have distinct binding modes and mechanisms of action.

Type: Article de revue scientifique
Mots-clés ou Sujets: amino terminal sequence; antiviral activity; article; binding site; drug determination; drug protein binding; drug screening; drug structure; electron microscopy; Human immunodeficiency virus 1; hydrophobicity; nonhuman; nuclear magnetic resonance spectroscopy; nucleic acid immobilization; priority journal; process optimization; protein binding; protein synthesis inhibition; virus mutation; virus release; virus replication; X ray crystallography
Unité d'appartenance: Faculté des sciences > Département de chimie
Déposé par: delegation Jean Rancourt
Date de dépôt: 18 mai 2016 19:47
Dernière modification: 18 mai 2016 19:47
Adresse URL : http://archipel.uqam.ca/id/eprint/8472


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