Abstract
Hepatitis C virus infects an estimated 180 million people worldwide, prompting enormous efforts to develop inhibitors targeting the essential NS3/4A protease. Resistance against the most promising protease inhibitors, telaprevir, boceprevir, and ITMN-191, has emerged in clinical trials. In this study, crystal structures of the NS3/4A protease domain reveal that viral substrates bind to the protease active site in a conserved manner defining a consensus volume, or substrate envelope. Mutations that confer the most severe resistance in the clinic occur where the inhibitors protrude from the substrate envelope, as these changes selectively weaken inhibitor binding without compromising the binding of substrates. These findings suggest a general model for predicting the susceptibility of protease inhibitors to resistance: drugs designed to fit within the substrate envelope will be less susceptible to resistance, as mutations affecting inhibitor binding would simultaneously interfere with the recognition of viral substrates.
Publication types
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Research Support, N.I.H., Extramural
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Research Support, Non-U.S. Gov't
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Research Support, U.S. Gov't, Non-P.H.S.
MeSH terms
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Carrier Proteins / antagonists & inhibitors
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Carrier Proteins / chemistry
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Carrier Proteins / metabolism
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Catalytic Domain
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Crystallography, X-Ray
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Drug Design*
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Drug Resistance, Viral*
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Hepacivirus / chemistry*
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Humans
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Intracellular Signaling Peptides and Proteins
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Mutation
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Protease Inhibitors / metabolism
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Protease Inhibitors / pharmacology
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Protease Inhibitors / therapeutic use
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Protein Binding
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Substrate Specificity
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Viral Nonstructural Proteins / antagonists & inhibitors*
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Viral Nonstructural Proteins / chemistry
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Viral Nonstructural Proteins / metabolism
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Viral Proteins / antagonists & inhibitors
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Viral Proteins / chemistry
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Viral Proteins / metabolism
Substances
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Carrier Proteins
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Intracellular Signaling Peptides and Proteins
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NS3 protein, hepatitis C virus
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NS4A cofactor peptide, Hepatitis C virus
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Protease Inhibitors
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Viral Nonstructural Proteins
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Viral Proteins
Associated data
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PDB/3M5L
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PDB/3M5M
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PDB/3M5N
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PDB/3M5O