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High-throughput virtual screening approach of natural compounds as target inhibitors of plasmepsin-II

Fatima En-Nahli, Soukayna Baammi, Halima Hajji, Marwa Alaqarbeh, Tahar Lakhlifi, Mohammed Bouachrıne

2022Journal of Biomolecular Structure and Dynamics41 citationsDOI

Abstract

parasite responsible for malaria, a disease that is causing deaths on a worldwide scale. Recently, plasmepsin II enzyme has gained much importance as an attractive drug target for the investigation of antimalarial drugs. In this sense, structure-based virtual screening have been utilized as tools in the process of discovering novel natural compounds based on quinoline as potential plasmepsin II inhibitors. Among the 58 quinoline derivatives isolated from different plants was screened by utilizing docking molecular, ADMET approaches, molecular dynamics simulation and MM-PBSA binding free energy. The first step in this work is building the 3 D structures of the plasmepsin II enzyme by using the SWISS-MODEL software. The optimized structures were subjected to virtual screening by Autodock Vina, an entity implicated in PyRx software. 21 were selected based on their binding affinity. The binding modes and interactions of the top-21 selected compounds were evaluated using AutoDock 4.2. Then, the pharmacokinetic proprieties and toxicity of these compounds were evaluated using ADMET analysis. Ten compounds were predicted to have ADMET characteristics with no side effects. Compounds M49 and M53 were found to be potential inhibitors. The stability of the selected two compounds was confirmed by MD simulation and MM/PBSA calculation during 200 ns. This study can be used to predict and to design new antimalarial drugs.Communicated by Ramaswamy H. Sarma.

Topics & Concepts

Virtual screeningAutoDockDrug discoveryDocking (animal)Plasmodium falciparumComputational biologyChemistryStereochemistryCombinatorial chemistryBiochemistryIn silicoBiologyMalariaMedicineGeneImmunologyNursingComputational Drug Discovery MethodsMalaria Research and Controlvaccines and immunoinformatics approaches
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