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Structure-Guided Design of Potent Coronavirus Inhibitors with a 2-Pyrrolidone Scaffold: Biochemical, Crystallographic, and Virological Studies.

Chamandi S DampallaYunjeong KimAlexandria ZabiegalaDennis J HowardHarry Nhat NguyenTrent K MaddenHayden A ThurmanAnne CooperLijun LiuKevin P BattaileScott LovellKyeong-Ok ChangWilliam C Groutas
Published in: Journal of medicinal chemistry (2024)
Zoonotic coronaviruses are known to produce severe infections in humans and have been the cause of significant morbidity and mortality worldwide. SARS-CoV-2 was the largest and latest contributor of fatal cases, even though MERS-CoV has the highest case-fatality ratio among zoonotic coronaviruses. These infections pose a high risk to public health worldwide warranting efforts for the expeditious discovery of antivirals. Hence, we hereby describe a novel series of inhibitors of coronavirus 3CL pro embodying an N -substituted 2-pyrrolidone scaffold envisaged to exploit favorable interactions with the S3-S4 subsites and connected to an invariant Leu-Gln P 2-P1 recognition element. Several inhibitors showed nanomolar antiviral activity in enzyme and cell-based assays, with no significant cytotoxicity. High-resolution crystal structures of inhibitors bound to the 3CL pro were determined to probe and identify the molecular determinants associated with binding, to inform the structure-guided optimization of the inhibitors, and to confirm the mechanism of action of the inhibitors.
Keyphrases
  • sars cov
  • respiratory syndrome coronavirus
  • public health
  • high resolution
  • stem cells
  • mass spectrometry
  • high throughput
  • anti inflammatory
  • quantum dots
  • drug induced
  • hiv infected
  • global health