A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease

The flavivirus genome encodes a single polyprotein precursor requiring multiple cleavages by host and viral proteases in order to produce the individual proteins that constitute an infectious virion. Previous studies have revealed that the NS2B cofactor of the viral NS2B-NS3 heterocomplex protease d...

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Autores principales: Brecher, Matthew, Li, Zhong, Liu, Binbin, Zhang, Jing, Koetzner, Cheri A., Alifarag, Adham, Jones, Susan A., Lin, Qishan, Kramer, Laura D., Li, Hongmin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5462475/
https://www.ncbi.nlm.nih.gov/pubmed/28542603
http://dx.doi.org/10.1371/journal.ppat.1006411
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author Brecher, Matthew
Li, Zhong
Liu, Binbin
Zhang, Jing
Koetzner, Cheri A.
Alifarag, Adham
Jones, Susan A.
Lin, Qishan
Kramer, Laura D.
Li, Hongmin
author_facet Brecher, Matthew
Li, Zhong
Liu, Binbin
Zhang, Jing
Koetzner, Cheri A.
Alifarag, Adham
Jones, Susan A.
Lin, Qishan
Kramer, Laura D.
Li, Hongmin
author_sort Brecher, Matthew
collection PubMed
description The flavivirus genome encodes a single polyprotein precursor requiring multiple cleavages by host and viral proteases in order to produce the individual proteins that constitute an infectious virion. Previous studies have revealed that the NS2B cofactor of the viral NS2B-NS3 heterocomplex protease displays a conformational dynamic between active and inactive states. Here, we developed a conformational switch assay based on split luciferase complementation (SLC) to monitor the conformational change of NS2B and to characterize candidate allosteric inhibitors. Binding of an active-site inhibitor to the protease resulted in a conformational change of NS2B and led to significant SLC enhancement. Mutagenesis of key residues at an allosteric site abolished this induced conformational change and SLC enhancement. We also performed a virtual screen of NCI library compounds to identify allosteric inhibitors, followed by in vitro biochemical screening of the resultant candidates. Only three of these compounds, NSC135618, 260594, and 146771, significantly inhibited the protease of Dengue virus 2 (DENV2) in vitro, with IC(50) values of 1.8 μM, 11.4 μM, and 4.8 μM, respectively. Among the three compounds, only NSC135618 significantly suppressed the SLC enhancement triggered by binding of active-site inhibitor in a dose-dependent manner, indicating that it inhibits the conformational change of NS2B. Results from virus titer reduction assays revealed that NSC135618 is a broad spectrum flavivirus protease inhibitor, and can significantly reduce titers of DENV2, Zika virus (ZIKV), West Nile virus (WNV), and Yellow fever virus (YFV) on A549 cells in vivo, with EC(50) values in low micromolar range. In contrast, the cytotoxicity of NSC135618 is only moderate with CC(50) of 48.8 μM on A549 cells. Moreover, NSC135618 inhibited ZIKV in human placental and neural progenitor cells relevant to ZIKV pathogenesis. Results from binding, kinetics, Western blot, mass spectrometry and mutagenesis experiments unambiguously demonstrated an allosteric mechanism for inhibition of the viral protease by NSC135618.
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spelling pubmed-54624752017-06-26 A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease Brecher, Matthew Li, Zhong Liu, Binbin Zhang, Jing Koetzner, Cheri A. Alifarag, Adham Jones, Susan A. Lin, Qishan Kramer, Laura D. Li, Hongmin PLoS Pathog Research Article The flavivirus genome encodes a single polyprotein precursor requiring multiple cleavages by host and viral proteases in order to produce the individual proteins that constitute an infectious virion. Previous studies have revealed that the NS2B cofactor of the viral NS2B-NS3 heterocomplex protease displays a conformational dynamic between active and inactive states. Here, we developed a conformational switch assay based on split luciferase complementation (SLC) to monitor the conformational change of NS2B and to characterize candidate allosteric inhibitors. Binding of an active-site inhibitor to the protease resulted in a conformational change of NS2B and led to significant SLC enhancement. Mutagenesis of key residues at an allosteric site abolished this induced conformational change and SLC enhancement. We also performed a virtual screen of NCI library compounds to identify allosteric inhibitors, followed by in vitro biochemical screening of the resultant candidates. Only three of these compounds, NSC135618, 260594, and 146771, significantly inhibited the protease of Dengue virus 2 (DENV2) in vitro, with IC(50) values of 1.8 μM, 11.4 μM, and 4.8 μM, respectively. Among the three compounds, only NSC135618 significantly suppressed the SLC enhancement triggered by binding of active-site inhibitor in a dose-dependent manner, indicating that it inhibits the conformational change of NS2B. Results from virus titer reduction assays revealed that NSC135618 is a broad spectrum flavivirus protease inhibitor, and can significantly reduce titers of DENV2, Zika virus (ZIKV), West Nile virus (WNV), and Yellow fever virus (YFV) on A549 cells in vivo, with EC(50) values in low micromolar range. In contrast, the cytotoxicity of NSC135618 is only moderate with CC(50) of 48.8 μM on A549 cells. Moreover, NSC135618 inhibited ZIKV in human placental and neural progenitor cells relevant to ZIKV pathogenesis. Results from binding, kinetics, Western blot, mass spectrometry and mutagenesis experiments unambiguously demonstrated an allosteric mechanism for inhibition of the viral protease by NSC135618. Public Library of Science 2017-05-25 /pmc/articles/PMC5462475/ /pubmed/28542603 http://dx.doi.org/10.1371/journal.ppat.1006411 Text en © 2017 Brecher et al http://creativecommons.org/licenses/by/4.0/ 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 author and source are credited.
spellingShingle Research Article
Brecher, Matthew
Li, Zhong
Liu, Binbin
Zhang, Jing
Koetzner, Cheri A.
Alifarag, Adham
Jones, Susan A.
Lin, Qishan
Kramer, Laura D.
Li, Hongmin
A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease
title A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease
title_full A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease
title_fullStr A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease
title_full_unstemmed A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease
title_short A conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus NS2B-NS3 protease
title_sort conformational switch high-throughput screening assay and allosteric inhibition of the flavivirus ns2b-ns3 protease
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5462475/
https://www.ncbi.nlm.nih.gov/pubmed/28542603
http://dx.doi.org/10.1371/journal.ppat.1006411
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