Investigation on Anti‐plasmodial Agents Against wild‐type PfDHFR Through In Silico Computational Tools

Malaria is the most severe and common parasitic infection, with P. falciparum responsible for the majority of cases and deaths each year. As anti‐malarial drug resistance continues to increase, novel compounds with anti‐ P. falciparum activity must be identified. In search of a new molecule to cure...

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Bibliographic Details
Published in:ChemistrySelect (Weinheim) 2024-07, Vol.9 (28), p.n/a
Main Authors: Parikh, Rajsi V., Pandya, Disha V., Salaria, Punam, M., Amarendar Reddy, Vyas, Vivek K., Bhatt, Hardik G., Dhameliya, Tejas M.
Format: Article
Language:English
Subjects:
Malaria
MD simulations
Molecular docking
P. falciparum
PfDHFR-TS
Online Access:Get full text
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Summary:Malaria is the most severe and common parasitic infection, with P. falciparum responsible for the majority of cases and deaths each year. As anti‐malarial drug resistance continues to increase, novel compounds with anti‐ P. falciparum activity must be identified. In search of a new molecule to cure the resistant malarial parasite, a total of 1,70,269 ligands from the Asinex BioDesign library 2021.2 were virtually screened using AutoDock Vina against wild‐type P. falciparum dihydrofolate reductase‐thymidylate synthase (PfDHFR‐TS). The computational molecular modeling investigations indicated the discovery of seventeen new compounds (2‐18) with higher binding energy compared to the PfDHFR‐TS inhibitor, pyrimethamine (1). Furthermore, the study employing drug‐likeness criteria and their ADMET profile suggested that these hits were the most promising drug candidates due to higher absorption and druggability. Furthermore, GROMACS 2023.4 was used to perform the molecular dynamics simulations on the foremost compound (2) having sufficient stability, leading to a key step towards the search of novel PfDHFR‐TS inhibitors against malaria. Virtual screening of 1,70,269 ligands against PfDHFR‐TS has led to the identification of 17 new compounds with superior binding energy to pyrimethamine with favourable drug‐likeness and ADMET profiles. Compound 2 has been found with sufficient stability in molecular dynamics simulations,marking a significant advancement in the quest for new PfDHFR‐TS inhibitors against malaria.
ISSN:2365-6549
2365-6549
DOI:10.1002/slct.202304151