The P3 O - Tert -Butyl-Threonine is Key to High Cellular and Antiviral Potency for Aldehyde-Based SARS-CoV-2 Main Protease Inhibitors.
bioRxiv
; 2021 Dec 21.
Article
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| MEDLINE
| ID: mdl-34981047
As an essential enzyme to SARS-CoV-2, main protease (M Pro ) is a viable target to develop antivirals for the treatment of COVID-19. By varying chemical compositions at both P2 and P3 sites and the N -terminal protection group, we synthesized a series of M Pro inhibitors that contain ß -(S-2-oxopyrrolidin-3-yl)-alaninal at the P1 site. These inhibitors have a large variation of determined IC 50 values that range from 4.8 to 650 nM. The determined IC 50 values reveal that relatively small side chains at both P2 and P3 sites are favorable for achieving high in vitro M Pro inhibition potency, the P3 site is tolerable toward unnatural amino acids with two alkyl substituents on the α -carbon, and the inhibition potency is sensitive toward the N -terminal protection group. X-ray crystal structures of M Pro bound with 16 inhibitors were determined. All structures show similar binding patterns of inhibitors at the M Pro active site. A covalent interaction between the active site cysteine and a bound inhibitor was observed in all structures. In M Pro , large structural variations were observed on residues N142 and Q189. All inhibitors were also characterized on their inhibition of M Pro in 293T cells, which revealed their in cellulo potency that is drastically different from their in vitro enzyme inhibition potency. Inhibitors that showed high in cellulo potency all contain O - tert -butyl-threonine at the P3 site. Based on the current and a previous study, we conclude that O - tert -butyl-threonine at the P3 site is a key component to achieve high cellular and antiviral potency for peptidyl aldehyde inhibitors of M Pro . This finding will be critical to the development of novel antivirals to address the current global emergency of concerning the COVID-19 pandemic.
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BioRxiv
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2021
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Article