Substrate Inhibition Kinetic Model for West Nile Virus NS2B-NS3 Protease
Identifieur interne : 003191 ( Main/Exploration ); précédent : 003190; suivant : 003192Substrate Inhibition Kinetic Model for West Nile Virus NS2B-NS3 Protease
Auteurs : Suzanne M. Tomlinson [États-Unis] ; Stanley J. Watowich [États-Unis]Source :
- Biochemistry [ 0006-2960 ] ; 2008.
Abstract
West Nile virus (WNV) has recently emerged in North America as a significant disease threat to humans and animals. Unfortunately, no approved antiviral drugs exist to combat WNV or other members of the genus Flavivirus in humans. The WNV NS2B-NS3 protease has been one of the primary targets for anti-WNV drug discovery and design since it is required for virus replication. As part of our efforts to develop effective WNV inhibitors, we reexamined the reaction kinetics of the NS2B-NS3 protease and the inhibition mechanisms of newly discovered inhibitors. The WNV protease showed substrate inhibition in assays utilizing fluorophore-linked peptide substrates GRR, GKR, and DFASGKR. Moreover, a substrate inhibition reaction step was required to accurately model kinetic data generated from protease assays with a peptide inhibitor. The substrate inhibition model suggested that peptide substrates could bind to two binding sites on the protease. Reaction product analogues also showed inhibition of the protease, demonstrating product inhibition in addition to and distinct from substrate inhibition. We propose that small peptide substrates and inhibitors may interact with protease residues that form either the P3−P1 binding surface (i.e., the S3−S1 sites) or the P1′−P3′ interaction surface (i.e., the S1′−S3′ sites). Optimization of substrate analogue inhibitors that target these two independent sites may lead to novel anti-WNV drugs.
Url:
DOI: 10.1021/bi801034f
Affiliations:
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Tomlinson</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><placeName><region type="state">Texas</region></placeName><wicri:cityArea>Department of Biochemistry and Molecular Biology, Sealy Center for Structural, Biology and Molecular Biophysics, University of Texas Medical Branch, Galveston</wicri:cityArea></affiliation></author><author><name sortKey="Watowich, Stanley J" sort="Watowich, Stanley J" uniqKey="Watowich S" first="Stanley J." last="Watowich">Stanley J. Watowich</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><placeName><region type="state">Texas</region></placeName><wicri:cityArea>Department of Biochemistry and Molecular Biology, Sealy Center for Structural, Biology and Molecular Biophysics, University of Texas Medical Branch, Galveston</wicri:cityArea></affiliation><affiliation wicri:level="1"><country wicri:rule="url">États-Unis</country></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Biochemistry</title><title level="j" type="abbrev">Biochemistry</title><idno type="ISSN">0006-2960</idno><idno type="eISSN">1520-4995</idno><imprint><publisher>American Chemical Society</publisher><date type="e-published">2008</date><date type="published">2008</date><biblScope unit="vol">47</biblScope><biblScope unit="issue">45</biblScope><biblScope unit="page" from="11763">11763</biblScope><biblScope unit="page" to="11770">11770</biblScope></imprint><idno type="ISSN">0006-2960</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0006-2960</idno></seriesStmt></fileDesc><profileDesc><textClass></textClass></profileDesc></teiHeader><front><div type="abstract">West Nile virus (WNV) has recently emerged in North America as a significant disease threat to humans and animals. Unfortunately, no approved antiviral drugs exist to combat WNV or other members of the genus Flavivirus in humans. The WNV NS2B-NS3 protease has been one of the primary targets for anti-WNV drug discovery and design since it is required for virus replication. As part of our efforts to develop effective WNV inhibitors, we reexamined the reaction kinetics of the NS2B-NS3 protease and the inhibition mechanisms of newly discovered inhibitors. The WNV protease showed substrate inhibition in assays utilizing fluorophore-linked peptide substrates GRR, GKR, and DFASGKR. Moreover, a substrate inhibition reaction step was required to accurately model kinetic data generated from protease assays with a peptide inhibitor. The substrate inhibition model suggested that peptide substrates could bind to two binding sites on the protease. Reaction product analogues also showed inhibition of the protease, demonstrating product inhibition in addition to and distinct from substrate inhibition. We propose that small peptide substrates and inhibitors may interact with protease residues that form either the P3−P1 binding surface (i.e., the S3−S1 sites) or the P1′−P3′ interaction surface (i.e., the S1′−S3′ sites). Optimization of substrate analogue inhibitors that target these two independent sites may lead to novel anti-WNV drugs.</div></front></TEI><affiliations><list><country><li>États-Unis</li></country><region><li>Texas</li></region></list><tree><country name="États-Unis"><region name="Texas"><name sortKey="Tomlinson, Suzanne M" sort="Tomlinson, Suzanne M" uniqKey="Tomlinson S" first="Suzanne M." last="Tomlinson">Suzanne M. Tomlinson</name></region><name sortKey="Watowich, Stanley J" sort="Watowich, Stanley J" uniqKey="Watowich S" first="Stanley J." last="Watowich">Stanley J. Watowich</name><name sortKey="Watowich, Stanley J" sort="Watowich, Stanley J" uniqKey="Watowich S" first="Stanley J." last="Watowich">Stanley J. 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