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Thiophene-fused γ-lactams inhibit the SARS-CoV-2 main protease via reversible covalent acylation.


ABSTRACT: Enzyme inhibitors working by O-acylation of nucleophilic serine residues are of immense medicinal importance, as exemplified by the β-lactam antibiotics. By contrast, inhibition of nucleophilic cysteine enzymes by S-acylation has not been widely exploited for medicinal applications. The SARS-CoV-2 main protease (Mpro) is a nucleophilic cysteine protease and a validated therapeutic target for COVID-19 treatment using small-molecule inhibitors. The clinically used Mpro inhibitors nirmatrelvir and simnotrelvir work via reversible covalent reaction of their electrophilic nitrile with the Mpro nucleophilic cysteine (Cys145). We report combined structure activity relationship and mass spectrometric studies revealing that appropriately functionalized γ-lactams can potently inhibit Mpro by reversible covalent reaction with Cys145 of Mpro. The results suggest that γ-lactams have potential as electrophilic warheads for development of covalently reacting small-molecule inhibitors of Mpro and, by implication, other nucleophilic cysteine enzymes.

SUBMITTER: Gayatri 

PROVIDER: S-EPMC11110133 | biostudies-literature | 2024 May

REPOSITORIES: biostudies-literature

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Thiophene-fused γ-lactams inhibit the SARS-CoV-2 main protease <i>via</i> reversible covalent acylation.

Gayatri   Brewitz Lennart L   Ibbotson Lewis L   Salah Eidarus E   Basak Shyam S   Choudhry Hani H   Schofield Christopher J CJ  

Chemical science 20240416 20


Enzyme inhibitors working by <i>O</i>-acylation of nucleophilic serine residues are of immense medicinal importance, as exemplified by the β-lactam antibiotics. By contrast, inhibition of nucleophilic cysteine enzymes by <i>S</i>-acylation has not been widely exploited for medicinal applications. The SARS-CoV-2 main protease (M<sup>pro</sup>) is a nucleophilic cysteine protease and a validated therapeutic target for COVID-19 treatment using small-molecule inhibitors. The clinically used M<sup>pr  ...[more]

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