Abstract
The current COVID-19 pandemic, caused by the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) and its variants, remains a serious health hazard globally. The SARS-CoV-2 Mpro and spike proteins, as well as the human ACE2 receptor, have previously been reported as good targets for the development of new drug leads to combat COVID-19. Various ligands, including synthetic and plant-derived small molecules, can interact with the aforementioned proteins. In this study, we investigated the interaction of eight phytochemicals, from selected medicinal plants (Aegle marmelos, Azadirachta indica, and Ocimum sanctum) commonly used in Indian traditional medicine, with SARS-CoV-2 Mpro (PDBID: 6LU7), SARS-CoV-2S spike protein (PDB ID: 6M0J) and the human ACE2 receptor (PDB ID: 6M18). All compounds were subjected to density functional theory (DFT) and frontier molecular orbitals (FMO) analysis to determine their geometry, and key electronic and energetic properties. Upon examining the interactions of the phytochemicals with the human ACE2 receptor and the SARS-CoV-2 Mpro, spike protein targets, two compounds (C-5 and C-8) were identified as the best binding ligands. These were further examined in MD simulation studies to determine the stability of the ligand–protein interactions. QSAR, pharmacokinetic and drug-likeness properties studies revealed that C-5 may be the best candidate to serve as a template for the design and development of new drugs to combat COVID-19.
Highlights
The on-going COVID-19 pandemic, caused by the SARSCoV-2 virus, remains a serious global health issue due to the highly contagious nature of this virus [1,2]
We report on the binding affinity of eight phytochemicals from three medicinal plants against SARS CoV-2 (Mpro and spike protein) and the human ACE2 receptor using an in silico docking approach
We report on density functional theory (DFT) calculations, pharmacokinetic and drug-likeness predictions
Summary
The on-going COVID-19 pandemic, caused by the SARSCoV-2 virus, remains a serious global health issue due to the highly contagious nature of this virus [1,2]. SARS-CoV-2 mainly transmits through respiratory aerosols/droplets from infected persons’ coughs, sneezes, talks, breaths and via airborne transmission [2,4]. Different SARS-CoV-2 variants have been reported worldwide, with double and triple mutants of this virus present in some countries. These variants are highly transmissible (i.e. high infectivity and transmission rate), can cause re-infections, and there is some concern as to whether current vaccines can control all of them [11,12]
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