Literature DB >> 24164286

Allosteric inhibition of the NS2B-NS3 protease from dengue virus.

Muslum Yildiz1, Sumana Ghosh, Jeffrey A Bell, Woody Sherman, Jeanne A Hardy.   

Abstract

Dengue virus is the flavivirus that causes dengue fever, dengue hemorrhagic disease, and dengue shock syndrome, which are currently increasing in incidence worldwide. Dengue virus protease (NS2B-NS3pro) is essential for dengue virus infection and is thus a target of therapeutic interest. To date, attention has focused on developing active-site inhibitors of NS2B-NS3pro. The flat and charged nature of the NS2B-NS3pro active site may contribute to difficulties in developing inhibitors and suggests that a strategy of identifying allosteric sites may be useful. We report an approach that allowed us to scan the NS2B-NS3pro surface by cysteine mutagenesis and use cysteine reactive probes to identify regions of the protein that are susceptible to allosteric inhibition. This method identified a new allosteric site utilizing a circumscribed panel of just eight cysteine variants and only five cysteine reactive probes. The allosterically sensitive site is centered at Ala125, between the 120s loop and the 150s loop. The crystal structures of WT and modified NS2B-NS3pro demonstrate that the 120s loop is flexible. Our work suggests that binding at this site prevents a conformational rearrangement of the NS2B region of the protein, which is required for activation. Preventing this movement locks the protein into the open, inactive conformation, suggesting that this site may be useful in the future development of therapeutic allosteric inhibitors.

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Year:  2013        PMID: 24164286      PMCID: PMC3923078          DOI: 10.1021/cb400612h

Source DB:  PubMed          Journal:  ACS Chem Biol        ISSN: 1554-8929            Impact factor:   5.100


  55 in total

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5.  Vaccine development against dengue and Japanese encephalitis: report of a World Health Organization meeting.

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5.  Dengue virus protease activity modulated by dynamics of protease cofactor.

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7.  An In-Silico Investigation of Phytochemicals as Antiviral Agents Against Dengue Fever.

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9.  NMR and MD Studies Reveal That the Isolated Dengue NS3 Protease Is an Intrinsically Disordered Chymotrypsin Fold Which Absolutely Requests NS2B for Correct Folding and Functional Dynamics.

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

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