Main Proteases of Key RNA Viruses Recognize P2 Residues in the Polyproline Type II Conformation: Harnessing Proline's Conformation with Protease Inhibitors

06 October 2023, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Positive-sense RNA viruses, particularly those in the Picornavirus-like superfamily and the Coronaviridae family, significantly impact public health, necessitating the development of focused antiviral agents. The main proteases of these viruses are promising targets for antiviral development. Peptidyl protease inhibitors containing Pro derivatives, mimicking rigid Leu at the P2 position, have emerged as potent drug candidates against SARS-CoV-2 3CLpro, despite several theoretical disadvantages compared to non-Pro rigid Leu mimetics: loss of a critical hydrogen bond due to the Pro tertiary amide and the unique PPII conformation associated with Pro, contrasting the protease-preferred β-strand conformation in the solution phase. Interestingly, despite these potential drawbacks, Pro derivatives that mimic a rigid Leu at the P2 position manage to either enhance or maintain inhibitory activities when compared to non-Pro derivatives. In this study, we analyzed over 200 crystal structures of main protease-bound peptidyl inhibitors of major RNA viruses. Our analysis revealed a previously unnoticed preference of these main proteases for the P2 residues of peptidyl inhibitors to adopt the PPII conformation, contrasting the traditional β-strand conformation. Furthermore, our unbiased all-atom classical MD simulations of literature examples confirmed that using Pro-based rigid Leu mimetics constrains the P2 residue in the enzyme-preferred PPII conformation in the solution phase and significantly reduces configurational entropy, which accounts for enhanced binding affinities despite losing a critical hydrogen bond and provides new insights into the binding of peptidyl protease inhibitors to viral main proteases.

Keywords

Main protease
3CL protease
SARS-CoV-2
polyproline type II
β-strand
proline
configurational entropy
MD simulations
conformational propensities
peptidyl inhibitors

Supplementary materials

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Description
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Supporting Information
Description
Configurational entropy time evolution plot of PF-07321332 and 10, crystal structure analysis details.
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