S-O-N-O-S-Bridged Crosslink between Three Residues C22, C44, and K61 Is a Redox Switch of the SARS-CoV-2 Main Protease A Novel Y-Shaped

ABSTRACTAs the COVID-19 pathogen, SARS-CoV-2 relies on its main protease (MPro) for pathogenesis and replication. During the crystallographic analyses of MPro crystals that were exposed to the air, a uniquely Y-shaped, S-O-N-O-S-bridged posttranslational crosslink that connects three residues C22, C44, and K61 at their side chains was frequently observed. As a novel posttranslational modification, this crosslink serves as a redox switch to regulate the catalytic activity of MPro, a demonstrated drug target of COVID-19. The formation of this linkage leads to a much more opened active site that can be potentially targeted for the development of novel SARS-CoV-2 antivirals. The inactivation of MPro by this crosslink indicates that small molecules that lock MPro in the crosslinked form can be potentially used with other active site-targeting molecules such as paxlovid for synergistic effects in inhibiting the SARS-CoV-2 viral replication. Therefore, this new finding reveals a unique aspect of the SARS-CoV-2 pathogenesis and is potentially paradigm-shifting in our current understanding of the function of MPro and the development of its inhibitors as COVID-19 antivirals.

Yang, K. S., Kuo, S., Blankenship, L. R., Sheng, Y. J., Sankaran, B., Li, P., ... Liu, W. R.

Yang, Kai S||Kuo, Syuan-Ting Alex||Blankenship, Lauren R||Sheng, Yan J||Sankaran, Banumathi||Li, Pingwei||Fierke, Carol A||Russell, David H||Yan, Xin||Xu, Shiqing||Liu, Wenshe Ray

A Novel Y-Shaped, S-O-N-O-S-Bridged Crosslink between Three Residues C22, C44, and K61 Is a Redox Switch of the SARS-CoV-2 Main Protease Institutional Repository Document