Identification of anti-mycobacterial agents against mmpL3: Virtual screening, ADMET analysis and MD simulations

Y Tuberculosis has been the communicable disease being one of the top 10 causes of deaths worldwide and the leading cause of deaths from a single infectious agent (ranking above HIV/AIDS). Mycobacterial mmpL3 target plays significant role in synthesis of essential components of the mycobacterial outer membrane including iron uptake, energy production, membrane potential, and antibiotic susceptibility. The worsening situation of the TB treatment has urged the necessity of search of new anti-tubercular agents through computational chemistry driven in silico approach. In search of mmpL3 inhibitors (PDB ID: 6AJG), molecular modeling of 175,851 ligands from 2020.1 Asinex BioDesign library through E-pharmacophore based screening followed by virtual screening using three different modes of precision (HTVS, SP and XP), ADMET analysis, Lipinski filters and MD simulations. These studies have provided an important start-point in the field of anti-mycobacterial agents through molecular modeling in search of mmpL3 inhibitors. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

Tuberculosis is one of the top 10 causes of communicable disease deaths worldwide, and the mmpL3 target protein plays a crucial role in synthesizing essential components of the mycobacterial outer membrane. The search for new anti-tubercular agents through computational chemistry has provided a promising start in the field of molecular modeling for mmpL3 inhibitors.