Login / Signup

A covalent inhibitor targeting the papain-like protease from SARS-CoV-2 inhibits viral replication.

Hesong HanAlbert Vallejo GraciaJoachim Justad RøiseLydia BoikeKristoffer LeonUrsula Schulze-GahmenMichael R StentzelTeena BajajDake ChenI-Che LiMaomao HeKamyar BehrouziZahra KhodabakhshiDaniel K NomuraMohammad R K MofradG Renuka KumarMelanie OttNiren Murthy
Published in: RSC advances (2023)
Covalent inhibitors of the papain-like protease (PLpro) from SARS-CoV-2 have great potential as antivirals, but their non-specific reactivity with thiols has limited their development. In this report, we performed an 8000 molecule electrophile screen against PLpro and identified an α-chloro amide fragment, termed compound 1, which inhibited SARS-CoV-2 replication in cells, and also had low non-specific reactivity with thiols. Compound 1 covalently reacts with the active site cysteine of PLpro, and had an IC50 of 18 μM for PLpro inhibition. Compound 1 also had low non-specific reactivity with thiols and reacted with glutathione 1-2 orders of magnitude slower than other commonly used electrophilic warheads. Finally, compound 1 had low toxicity in cells and mice and has a molecular weight of only 247 daltons and consequently has great potential for further optimization. Collectively, these results demonstrate that compound 1 is a promising lead fragment for future PLpro drug discovery campaigns.
Keyphrases