Book ; Online: An Insight into the Interaction Between α-Ketoamide-Based Inhibitor and Coronavirus Main Protease
A Detailed in Silico Study
2020
Abstract: The search for therapeutic drugs that can neutralize the effects of COVID-2019 (SARS-CoV-2) infection is the main focus of current research. The coronavirus main protease (M pro ) is an attractive target for anti-coronavirus drug design. Further, α- ... ...
Abstract | The search for therapeutic drugs that can neutralize the effects of COVID-2019 (SARS-CoV-2) infection is the main focus of current research. The coronavirus main protease (M pro ) is an attractive target for anti-coronavirus drug design. Further, α-ketoamide is proved to be very effective as a reversible covalent-inhibitor against cysteine proteases. Herein, we report on the non-covalent to the covalent adduct formation mechanism of α‑ketoamide-based inhibitor with the enzyme active site amino acids by QM/SQM model (QM= quantum mechanical, SQM= semi-empirical QM). To uncover the mechanism, we focused on two approaches: a concerted and a stepwise fashion. The concerted pathway proceeds via deprotonation of the thiol of cysteine (here, Cys 145 SgH) and simultaneous reversible nucleophilic attack of sulfur onto the α-ketoamide warhead. In this work, we propose three plausible concerted pathways. On the contrary, in a traditional two-stage pathway, the first step is proton transfer from Cys 145 SgH to His 41 Nd forming an ion pair, and consecutively, in the second step, the thiolate ion attacks the a-keto group to form a thiohemiketal. In this reaction, we find that the stability of the tetrahedral intermediate oxyanion/hydroxyl hole plays an important role. Moreover, as the α-keto group has two faces Si or Re for the nucleophilic attack, we considered both possibilities of attack leading to S- and R-thiohemiketal. We computed the structural, electronic, and energetic parameters of all stationary points including transition states via ONIOM methodology at B3LYP/6-31G(d):PM6 level. Furthermore, to get more accurate results, we also calculated the single-point dispersion-corrected energy profile by using ωB97X-D/6-31G(d,p):PM6 level. Additionally, to characterize covalent, weak noncovalent interaction (NCI) and hydrogen-bonds, we applied NCI-reduced density gradient (NCI-RDG) methods along with Bader’s Quantum Theory of Atoms-in-Molecules (QTAIM) and natural bonding orbital (NBO) analysis. |
---|---|
Keywords | Biochemistry ; Computational Chemistry and Modeling ; Coronavirus ; SARS-CoV ; SARS-CoV-2 ; Covid-19 ; α-ketoamide ; reaction mechanism ; cysteine protease ; non-covalent interaction (NCI) ; ONIOM ; covid19 |
Subject code | 540 |
Publishing date | 2020-08-11T09:06:42Z |
Document type | Book ; Online |
Database | BASE - Bielefeld Academic Search Engine (life sciences selection) |
Full text online
More links
Kategorien
Inter-library loan at ZB MED
Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.