Abstract
Hand, foot, and mouth disease (HFMD), primarily instigated by Coxsackievirus A16 (CVA16), poses a serious health concern, necessitating effective therapeutic interventions. The RNA-dependent RNA polymerase (RdRp) of CVA16 emerges as a promising drug target for HFMD treatment. This study presents an in-silico pipeline for the identification of potential RdRp inhibitors against CVA16. A library of 91 natural compounds derived from Bacopa monnieri (brahmi) was virtually screened against the CVA16 RdRp. Here, Bacobitacin D emerged as a promising hit molecule, forming 8 hydrogen bonds including key catalytic site residues (Asp238 and Asp329) within the RdRp active site. Further, molecular dynamics (MD) simulations and MM/GBSA binding free energy calculations was applied on the top three hits that were selected based on exhaustive docking scores (≤−9.55 kcal/mol). Bacobitacin D exhibited sustainable stability, as evidenced by minimal deviation (RMSD = 0.75 ± 0.02 nm) during a 100 ns MD simulation. Importantly, Bacopaside IV exhibited the lowest ΔGTOTAL binding free energy (−23.70 kcal/mol), while Bacobitacin D displayed a comparable ΔGTOTAL of −19.14 kcal/mol. Structural interpretation of the most populated cluster derived from MD simulations showed direct interactions of Bacobitacin D with pivotal catalytic residues, including Asp238 and Ser289. This comprehensive study confirmed Bacobitacin D as a potent inhibitor of CVA16 RdRp, offering a potential avenue for therapeutic intervention against HFMD. Experimental validation is required to confirm the inhibitory action of Bacobitacin D against HFMD.
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