The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase

BACKGROUND: Allosteric HIV-1 integrase (IN) inhibitors (ALLINIs) are an important new class of anti-HIV-1 agents. ALLINIs bind at the IN catalytic core domain (CCD) dimer interface occupying the principal binding pocket of its cellular cofactor LEDGF/p75. Consequently, ALLINIs inhibit HIV-1 IN inter...

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Autores principales: Slaughter, Alison, Jurado, Kellie A, Deng, Nanjie, Feng, Lei, Kessl, Jacques J, Shkriabai, Nikoloz, Larue, Ross C, Fadel, Hind J, Patel, Pratiq A, Jena, Nivedita, Fuchs, James R, Poeschla, Eric, Levy, Ronald M, Engelman, Alan, Kvaratskhelia, Mamuka
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2014
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4251946/
https://www.ncbi.nlm.nih.gov/pubmed/25421939
http://dx.doi.org/10.1186/s12977-014-0100-1
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author Slaughter, Alison
Jurado, Kellie A
Deng, Nanjie
Feng, Lei
Kessl, Jacques J
Shkriabai, Nikoloz
Larue, Ross C
Fadel, Hind J
Patel, Pratiq A
Jena, Nivedita
Fuchs, James R
Poeschla, Eric
Levy, Ronald M
Engelman, Alan
Kvaratskhelia, Mamuka
author_facet Slaughter, Alison
Jurado, Kellie A
Deng, Nanjie
Feng, Lei
Kessl, Jacques J
Shkriabai, Nikoloz
Larue, Ross C
Fadel, Hind J
Patel, Pratiq A
Jena, Nivedita
Fuchs, James R
Poeschla, Eric
Levy, Ronald M
Engelman, Alan
Kvaratskhelia, Mamuka
author_sort Slaughter, Alison
collection PubMed
description BACKGROUND: Allosteric HIV-1 integrase (IN) inhibitors (ALLINIs) are an important new class of anti-HIV-1 agents. ALLINIs bind at the IN catalytic core domain (CCD) dimer interface occupying the principal binding pocket of its cellular cofactor LEDGF/p75. Consequently, ALLINIs inhibit HIV-1 IN interaction with LEDGF/p75 as well as promote aberrant IN multimerization. Selection of viral strains emerging under the inhibitor pressure has revealed mutations at the IN dimer interface near the inhibitor binding site. RESULTS: We have investigated the effects of one of the most prevalent substitutions, H171T IN, selected under increasing pressure of ALLINI BI-D. Virus containing the H171T IN substitution exhibited an ~68-fold resistance to BI-D treatment in infected cells. These results correlated with ~84-fold reduced affinity for BI-D binding to recombinant H171T IN CCD protein compared to its wild type (WT) counterpart. However, the H171T IN substitution only modestly affected IN-LEDGF/p75 binding and allowed HIV-1 containing this substitution to replicate at near WT levels. The x-ray crystal structures of BI-D binding to WT and H171T IN CCD dimers coupled with binding free energy calculations revealed the importance of the N(δ)- protonated imidazole group of His171 for hydrogen bonding to the BI-D tert-butoxy ether oxygen and establishing electrostatic interactions with the inhibitor carboxylic acid, whereas these interactions were compromised upon substitution to Thr171. CONCLUSIONS: Our findings reveal a distinct mechanism of resistance for the H171T IN mutation to ALLINI BI-D and indicate a previously undescribed role of the His171 side chain for binding the inhibitor. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12977-014-0100-1) contains supplementary material, which is available to authorized users.
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spelling pubmed-42519462014-12-04 The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase Slaughter, Alison Jurado, Kellie A Deng, Nanjie Feng, Lei Kessl, Jacques J Shkriabai, Nikoloz Larue, Ross C Fadel, Hind J Patel, Pratiq A Jena, Nivedita Fuchs, James R Poeschla, Eric Levy, Ronald M Engelman, Alan Kvaratskhelia, Mamuka Retrovirology Research BACKGROUND: Allosteric HIV-1 integrase (IN) inhibitors (ALLINIs) are an important new class of anti-HIV-1 agents. ALLINIs bind at the IN catalytic core domain (CCD) dimer interface occupying the principal binding pocket of its cellular cofactor LEDGF/p75. Consequently, ALLINIs inhibit HIV-1 IN interaction with LEDGF/p75 as well as promote aberrant IN multimerization. Selection of viral strains emerging under the inhibitor pressure has revealed mutations at the IN dimer interface near the inhibitor binding site. RESULTS: We have investigated the effects of one of the most prevalent substitutions, H171T IN, selected under increasing pressure of ALLINI BI-D. Virus containing the H171T IN substitution exhibited an ~68-fold resistance to BI-D treatment in infected cells. These results correlated with ~84-fold reduced affinity for BI-D binding to recombinant H171T IN CCD protein compared to its wild type (WT) counterpart. However, the H171T IN substitution only modestly affected IN-LEDGF/p75 binding and allowed HIV-1 containing this substitution to replicate at near WT levels. The x-ray crystal structures of BI-D binding to WT and H171T IN CCD dimers coupled with binding free energy calculations revealed the importance of the N(δ)- protonated imidazole group of His171 for hydrogen bonding to the BI-D tert-butoxy ether oxygen and establishing electrostatic interactions with the inhibitor carboxylic acid, whereas these interactions were compromised upon substitution to Thr171. CONCLUSIONS: Our findings reveal a distinct mechanism of resistance for the H171T IN mutation to ALLINI BI-D and indicate a previously undescribed role of the His171 side chain for binding the inhibitor. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12977-014-0100-1) contains supplementary material, which is available to authorized users. BioMed Central 2014-11-25 /pmc/articles/PMC4251946/ /pubmed/25421939 http://dx.doi.org/10.1186/s12977-014-0100-1 Text en © Slaughter et al.; licensee BioMed Central Ltd. 2014 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research
Slaughter, Alison
Jurado, Kellie A
Deng, Nanjie
Feng, Lei
Kessl, Jacques J
Shkriabai, Nikoloz
Larue, Ross C
Fadel, Hind J
Patel, Pratiq A
Jena, Nivedita
Fuchs, James R
Poeschla, Eric
Levy, Ronald M
Engelman, Alan
Kvaratskhelia, Mamuka
The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase
title The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase
title_full The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase
title_fullStr The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase
title_full_unstemmed The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase
title_short The mechanism of H171T resistance reveals the importance of N(δ)-protonated His171 for the binding of allosteric inhibitor BI-D to HIV-1 integrase
title_sort mechanism of h171t resistance reveals the importance of n(δ)-protonated his171 for the binding of allosteric inhibitor bi-d to hiv-1 integrase
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4251946/
https://www.ncbi.nlm.nih.gov/pubmed/25421939
http://dx.doi.org/10.1186/s12977-014-0100-1
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