Insights into novel inhibitors intending HCMV protease a computational molecular modelling investigation for antiviral drug repurposing

Abstract

Human cytomegalovirus (HCMV) is an important opportunistic pathogen that is the most significant viral cause of congenital birth abnormalities and is responsible for a high morbidity and death rate in immunocompromised patients. HCMV's rising severity and the limitations of current vaccines in preventing infection highlight the urgent need for effective antiviral drugs. This study aimed to identify small compounds using extensive & appropriate in-silico drug design techniques, including molecular docking, Post-docking MM-GBSA, ADMET, MD simulation, PCA, and DCCM were employed in this study capable of binding to the viral protease and inhibiting its activity, thereby preventing proteolytic processing during capsid maturation. 3516 compounds from life chemical were used in molecular docking, and the top four compounds having high binding affinity and promising ADMET properties with life chemicals ID: F3407-0101 (CID: 49667672), F6559-3323 (CID: 121022124), F6456-1266 (CID: 71810903), and F3411-7969 (CID: 50785034). MD simulation was also used to assess the stability of the protein-ligand complex structure. Finally, after MD simulation, principal component analysis (PCA), and dynamic cross-correlation matrix (DCCM) analysis were performed using trajectories, and we can suggest the best drug candidate which is CID: 50785034 (N-(3-fluoro-4-methylphenyl)-2-({7-oxo-8-[(oxolan-2-yl) methyl]-5-thia-1,8,10,11-tetraazatricyclo [7.3.0.0^ {2,6}] dodeca-2(6),3,9,11-tetraen-12-yl}sulfanyl)acetamide), another two compounds CID: 121022124, and CID: 71810903 which comes after CID: 50785034. All three compounds may have the potential to be developed as a therapy option for HCMV infection.