Cysteine focused covalent inhibitors against the main protease of SARS-CoV-2

Abstract: In viral replication and transcription, the main protease (Mpro) of SARS-CoV-2 plays an important role and appears to be a vital target for drug design. In Mpro, there is a Cys-His catalytic dyad, and ligands that interact with the Cys145 assumed to be an effective approach to inhibit the Mpro. In this study, approximately 1400 cysteine-focused ligands were screened to identify the best candidates that can act as potent inhibitors against Mpro. Our results show that the selected ligands strongly interact with … Show more

“…The first comprises peptidomimetics designed to covalently interact with Cys145 in the catalytic site that share four features: a) moderate size; b) a group mimicking a glutamine side chain; c) a branched lipophilic group; d) a reactive electrophilic ‘warhead’, such as aldehydes, Michael acceptors, and epoxy ketones responsible for the covalent bond [ 25 , 26 ]. However, the possibility of non-specific biological interactions due to their huge reactivity, must be considered for the subsequent in vivo evaluation of this type of inhibitors [ 27 , 28 ]. Accordingly, the less reactive non-covalent inhibitors may represent safer antiviral agents.…”

Identification of a dual acting SARS-CoV-2 proteases inhibitor through in silico design and step-by-step biological characterization

“…The first comprises peptidomimetics designed to covalently interact with Cys145 in the catalytic site that share four features: a) moderate size; b) a group mimicking a glutamine side chain; c) a branched lipophilic group; d) a reactive electrophilic ‘warhead’, such as aldehydes, Michael acceptors, and epoxy ketones responsible for the covalent bond [ 25 , 26 ]. However, the possibility of non-specific biological interactions due to their huge reactivity, must be considered for the subsequent in vivo evaluation of this type of inhibitors [ 27 , 28 ]. Accordingly, the less reactive non-covalent inhibitors may represent safer antiviral agents.…”

Identification of a dual acting SARS-CoV-2 proteases inhibitor through in silico design and step-by-step biological characterization

“…(Pillaiyar, et al, 2020) While classical docking studies are widely reported in the literature,( Kitchen et al, 2004 ) docking studies for covalent protein inhibition are less common,( Kumalo et al, 2015 ; Sotriffer, 2018 ) in particular with SARS-CoV-2 main protease. ( Liu et al, 2020 ; Paul et al, 2020 ) Despite covalent inhibition approaches are less studied because the requirement of a nucleophilic residue is a structural limitation and they can be considered as harmful, the resurgence of covalent drugs encourage to also consider covalent inhibition. ( Dalton and Campos, 2020 ; Ghosh et al, 2019 ; Singh et al, 2011 ) Irreversible specific protein inhibitors are now reported, such as in the case of the Ras protein possessing a G12C mutation, a promising example of potential anticancer strategy.…”

Docking-based virtual screening studies aiming at the covalent inhibition of SARS-CoV-2 MPro by targeting the cysteine 145

“…However, in vivo studies of these ligands can only yield their true efficacy against M pro . Similarly, several covalent inhibitors, such as ketone-based covalent inhibitors [69] , cysteine focussed covalent inhibitors [70] , etc. were proposed for the inhibition of M pro .…”

Drug targets, mechanisms of drug action, and therapeutics against SARS-CoV-2