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Structure-based virtual screening, synthesis and SAR of novel inhibitors of hepatitis C virus NS5B polymerase.


ABSTRACT: Hepatitis C virus (HCV) NS5B polymerase is a key target for the development of therapeutic agents aimed at the treatment of HCV infections. Here we report on the identification of novel allosteric inhibitors of HCV NS5B through a combination of structure-based virtual screening, synthesis and structure-activity relationship (SAR) optimization approach. Virtual screening of 260,000 compounds from the ChemBridge database against the tetracyclic indole inhibitor binding pocket of NS5B (allosteric pocket-1, AP-1), sequentially down-sized the library by 4 orders of magnitude to yield 23 candidates. In vitro evaluation of the NS5B inhibitory activity of the in-silico selected compounds resulted in 17% hit rate, identifying two novel chemotypes. Of these, compound 3, bearing the rhodanine scaffold, proved amenable for productive SAR exploration and synthetic modification. As a result, 25 derivatives that exhibited IC?? values ranging from 7.7 to 68.0 ?M were developed. Docking analysis of lead compound 28 within the tetracyclic indole- and benzylidene-binding allosteric pockets (AP-1 and AP-3, respectively) of NS5B revealed topological similarities between these two pockets. Compound 28, a novel rhodanine analog with NS5B inhibitory potency in the low micromolar level range may be a promising lead for future development of more potent NS5B inhibitors.

SUBMITTER: Talele TT 

PROVIDER: S-EPMC2956004 | biostudies-literature | 2010 Jul

REPOSITORIES: biostudies-literature

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Structure-based virtual screening, synthesis and SAR of novel inhibitors of hepatitis C virus NS5B polymerase.

Talele Tanaji T TT   Arora Payal P   Kulkarni Shridhar S SS   Patel Maulik R MR   Singh Satyakam S   Chudayeu Maksim M   Kaushik-Basu Neerja N  

Bioorganic & medicinal chemistry 20100515 13


Hepatitis C virus (HCV) NS5B polymerase is a key target for the development of therapeutic agents aimed at the treatment of HCV infections. Here we report on the identification of novel allosteric inhibitors of HCV NS5B through a combination of structure-based virtual screening, synthesis and structure-activity relationship (SAR) optimization approach. Virtual screening of 260,000 compounds from the ChemBridge database against the tetracyclic indole inhibitor binding pocket of NS5B (allosteric p  ...[more]

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