The main protease (M) of the betacoronavirus SARS-CoV-2 is an attractive target for the development of treatments for COVID-19. Structure-based design is a successful approach to discovering new inhibitors of the M. Starting from crystal structures of the M in complexes with the Hepatitis C virus NS3/4A protease inhibitors boceprevir and telaprevir, we optimized the potency of the alpha-ketoamide boceprevir against the M by replacing its P1 cyclobutyl moiety by a γ-lactam as a glutamine surrogate. The resulting compound, , exhibited an IC of 13 nM versus the recombinant M, and similar potency was observed for its P1' -methyl derivative . Crystal structures confirmed the validity of our design concept. In addition to SARS-CoV-2 M inhibition, we also explored the activity of against the M of the alphacoronavirus HCoV NL63 and against enterovirus 3C proteases. The activities were good (0.33 µM, HCoV-NL63 M), moderate (1.45 µM, Coxsackievirus 3C), and relatively poor (6.7 µM, enterovirus A71 3C), respectively. The structural basis for the differences in activities was revealed by X-ray crystallo-graphy. We conclude that the modified boceprevir scaffold is suitable for obtaining high-potency inhibitors of the coronavirus Ms but further optimization would be needed to target enterovirus 3Cs efficiently.
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| http://dx.doi.org/10.3390/molecules27134292 | DOI Listing |
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