Structural basis for the inhibition of coronaviral main proteases by PF-00835231

Xuelan Zhou
Xiaolu Lu
Cheng Lin
Xiaofang Zou
Wenwen Li
Xiangyi Zeng
Jie Wang
Pei Zeng
Weiwei Wang
Jin Zhang
Haihai Jiang
Jian Li

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Abstract

The main protease (M ^pro ) of coronaviruses plays a key role in viral replication, thus serving as a hot target for drug design. It has been proven that PF-00835231 is promising inhibitor of SARS-CoV-2 M ^pro . Here, we report the inhibition potency of PF-00835231 against SARS-CoV-2 M ^pro and seven M ^pro mutants (G15S, M49I, Y54C, K90R, P132H, S46F, and V186F) from SARS-CoV-2 variants. The results confirm that PF-00835231 has broad-spectrum inhibition against various coronaviral M ^pro s. In addition, the crystal structures of SARS-CoV-2 M ^pro , SARS-CoV M ^pro , MERS-CoV M ^pro , and seven SARS-CoV-2 M ^pro mutants (G15S, M49I, Y54C, K90R, P132H, S46F, and V186F) in complex with PF-00835231 are solved. A detailed analysis of these structures reveal key determinants essential for inhibition and elucidates the binding modes of different coronaviral M ^pro s. Given the importance of the main protease for the treatment of coronaviral infection, structural insights into the M ^pro inhibition by PF-00835231 can accelerate the design of novel antivirals with broad-spectrum efficacy against different human coronaviruses.

Version published to 10.1101/2024.04.22.590578v1 on bioRxiv
Apr 22, 2024

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