Abstract
The novel coronavirus SARS-CoV-2 Main Protease (Mpro) is an internally encoded enzyme that hydrolyzes the translated polyproteins at designated sites. The protease directly mediates viral replication processes; hence, a promising target for drug design. Plant-based natural products, especially polyphenols and phenolic compounds, provide the scaffold for many effective antiviral medications, and have recently been shown to be able to inhibit Mpro of SARS-CoV-2. Specifically, polyphenolic compounds found in cacao and chocolate products have been shown by recent experimental studies to have strong inhibitory effects against Mpro activities. This work aims to uncover the inhibition processes of Mpro by a natural phenolic compound found in cacao and chocolate products, clovamide. Clovamide (caffeoyl-DOPA) is a naturally occurring caffeoyl conjugate that is found in the phenolic fraction of Theobroma Cacao L. and a potent radical-scavenging antioxidant as suggested by previous studies of our group. Here, we propose inhibitory mechanisms by which clovamide may act as a Mpro inhibitor as it becomes oxidized by scavenging reactive oxygen species (ROS) in the body, or becomes oxidized as a result of enzymatic browning. We use molecular docking, annealing-based molecular dynamics, and Density Functional Theory (DFT) calculations to study the interactions between clovamide with its derivatives and Mpro catalytic and allosteric sites. Our molecular modelling studies provide mechanistic insights of clovamide inhibition of Mpro, and indicate that clovamide may be a promising candidate as a drug lead molecule for COVID-19 treatments.
Highlights
Our work suggests that clovamide is a potential main protease inhibitor and we propose conjugate addition mechanisms by which clovamide analogues, upon radical scavenging or natural enzymatic browning, could act as irreversible inhibitors to inhibit Mpro catalytic activities
Our work suggested that clovamide may be a promising COVID-19 drug lead molecule that targets the SARS-CoV-2 main protease
We hereby show that clovamide is a versatile natural compound with various functional groups, providing both binding affinities and chemical reactivities to inhibit SARS-CoV-2 main protease activities
Summary
The main protease (Mpro ) of SARS-CoV-2, known as the Chymotrypsin-like cysteine protease (3CLpro ), is the critical protease of the coronavirus and bears the essential role of mediating viral replication and transcription processes, making it one of the most attractive drug targets for SARS-CoV-2 [1,2]. Coronaviruses are subject to extensive mutagenesis; key proteins such as the main protease are highly conserved, since mutations in these key proteins are often lethal to the virus. For this reason, drugs that target the conserved Mpro are often able to prevent viral replication and proliferation processes, and display a broad-spectrum antiviral activity [3]
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