The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function

Allosteric HIV-1 integrase (IN) inhibitors (ALLINIs) are an emerging class of small molecules that disrupt viral maturation by inducing the aberrant multimerization of IN. Here, we present cocrystal structures of HIV-1 IN with two potent ALLINIs, namely, BI-D and the drug candidate Pirmitegravir. Th...

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Autores principales: Singer, Matthew R., Dinh, Tung, Levintov, Lev, Annamalai, Arun S., Rey, Juan S., Briganti, Lorenzo, Cook, Nicola J., Pye, Valerie E., Taylor, Ian A., Kim, Kyungjin, Engelman, Alan N., Kim, Baek, Perilla, Juan R., Kvaratskhelia, Mamuka, Cherepanov, Peter
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9973045/
https://www.ncbi.nlm.nih.gov/pubmed/36744954
http://dx.doi.org/10.1128/mbio.03560-22
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author Singer, Matthew R.
Dinh, Tung
Levintov, Lev
Annamalai, Arun S.
Rey, Juan S.
Briganti, Lorenzo
Cook, Nicola J.
Pye, Valerie E.
Taylor, Ian A.
Kim, Kyungjin
Engelman, Alan N.
Kim, Baek
Perilla, Juan R.
Kvaratskhelia, Mamuka
Cherepanov, Peter
author_facet Singer, Matthew R.
Dinh, Tung
Levintov, Lev
Annamalai, Arun S.
Rey, Juan S.
Briganti, Lorenzo
Cook, Nicola J.
Pye, Valerie E.
Taylor, Ian A.
Kim, Kyungjin
Engelman, Alan N.
Kim, Baek
Perilla, Juan R.
Kvaratskhelia, Mamuka
Cherepanov, Peter
author_sort Singer, Matthew R.
collection PubMed
description Allosteric HIV-1 integrase (IN) inhibitors (ALLINIs) are an emerging class of small molecules that disrupt viral maturation by inducing the aberrant multimerization of IN. Here, we present cocrystal structures of HIV-1 IN with two potent ALLINIs, namely, BI-D and the drug candidate Pirmitegravir. The structures reveal atomistic details of the ALLINI-induced interface between the HIV-1 IN catalytic core and carboxyl-terminal domains (CCD and CTD). Projecting from their principal binding pocket on the IN CCD dimer, the compounds act as molecular glue by engaging a triad of invariant HIV-1 IN CTD residues, namely, Tyr226, Trp235, and Lys266, to nucleate the CTD-CCD interaction. The drug-induced interface involves the CTD SH3-like fold and extends to the beginning of the IN carboxyl-terminal tail region. We show that mutations of HIV-1 IN CTD residues that participate in the interface with the CCD greatly reduce the IN-aggregation properties of Pirmitegravir. Our results explain the mechanism of the ALLINI-induced condensation of HIV-1 IN and provide a reliable template for the rational development of this series of antiretrovirals through the optimization of their key contacts with the viral target.
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spelling pubmed-99730452023-03-01 The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function Singer, Matthew R. Dinh, Tung Levintov, Lev Annamalai, Arun S. Rey, Juan S. Briganti, Lorenzo Cook, Nicola J. Pye, Valerie E. Taylor, Ian A. Kim, Kyungjin Engelman, Alan N. Kim, Baek Perilla, Juan R. Kvaratskhelia, Mamuka Cherepanov, Peter mBio Research Article Allosteric HIV-1 integrase (IN) inhibitors (ALLINIs) are an emerging class of small molecules that disrupt viral maturation by inducing the aberrant multimerization of IN. Here, we present cocrystal structures of HIV-1 IN with two potent ALLINIs, namely, BI-D and the drug candidate Pirmitegravir. The structures reveal atomistic details of the ALLINI-induced interface between the HIV-1 IN catalytic core and carboxyl-terminal domains (CCD and CTD). Projecting from their principal binding pocket on the IN CCD dimer, the compounds act as molecular glue by engaging a triad of invariant HIV-1 IN CTD residues, namely, Tyr226, Trp235, and Lys266, to nucleate the CTD-CCD interaction. The drug-induced interface involves the CTD SH3-like fold and extends to the beginning of the IN carboxyl-terminal tail region. We show that mutations of HIV-1 IN CTD residues that participate in the interface with the CCD greatly reduce the IN-aggregation properties of Pirmitegravir. Our results explain the mechanism of the ALLINI-induced condensation of HIV-1 IN and provide a reliable template for the rational development of this series of antiretrovirals through the optimization of their key contacts with the viral target. American Society for Microbiology 2023-02-06 /pmc/articles/PMC9973045/ /pubmed/36744954 http://dx.doi.org/10.1128/mbio.03560-22 Text en Copyright © 2023 Singer et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Singer, Matthew R.
Dinh, Tung
Levintov, Lev
Annamalai, Arun S.
Rey, Juan S.
Briganti, Lorenzo
Cook, Nicola J.
Pye, Valerie E.
Taylor, Ian A.
Kim, Kyungjin
Engelman, Alan N.
Kim, Baek
Perilla, Juan R.
Kvaratskhelia, Mamuka
Cherepanov, Peter
The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function
title The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function
title_full The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function
title_fullStr The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function
title_full_unstemmed The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function
title_short The Drug-Induced Interface That Drives HIV-1 Integrase Hypermultimerization and Loss of Function
title_sort drug-induced interface that drives hiv-1 integrase hypermultimerization and loss of function
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9973045/
https://www.ncbi.nlm.nih.gov/pubmed/36744954
http://dx.doi.org/10.1128/mbio.03560-22
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