In-silico Study of Secondary Metabolites as Potential Inhibitors of NEF and P24 Protein of HIV-1

Abstract

Acquired immune deficiency syndrome (HIV/AIDS) has been a major global health concern for over 38 years. No safe and effective preventive or therapeutic vaccine has been developed although many products have been investigated. This computational study was conducted on plant-based active compounds against HIV-1 NEF and p24 protein to obtain and complexes with high binding scores were used for two-dimensional interaction studies via Ligplot to explore hydrogen bond and hydrophobic bond formation. ADMET analysis for best phytocompounds was performed using DruLito, ALOGPS, and PROTOX II. According to the study conducted, phytocompounds like, Protostrychnine, Isostrychnine, Pseudo-Alpha-Colubrine, Alpha-Colubrine, Camptothecin, Benzo[f]quinoline, and (+) -Camptothecin are safe to be considered as a potential drug candidate after experimental validation against NEF and p24 proteins of HIV-1. While, Picrasidine M, Chaetochromin, 3’,3’-Binaringenin, and Sequoiaflavone displayed high binding scores of -10.8, -8.2, -9.5, -9.2 and -9.0, -8.8, -10.6, -9.0 respectively for NEF and p24 protein. All drugs belong to the toxicity class of either 4 or 5. They are inactive for hepatotoxicity and carcinogenicity but active for immunogenicity. For further validation of the results the phytocompounds can be extracted through solvent extraction method and tested on cell lines or animal models for their effectiveness.