Lanosterol 14-α demethylase (LDM) is one of the promising drug targets of azoles antifungal. In this study, we have screened a large number of small molecules from different chemical databases (ZINC, DrugBank, ChEMBL, and ChemDiv) to find out novel and potential inhibitors of LDM. As a result, from more than a hundred thousand molecules, the two best candidates, C1 (ZINC000299817826) and C3 (ZINC000095786149), were selected from the top-scoring compounds and further validated in Molecular Dynamic (MD) simulation. The Glide scores of C1 and C3 were -19.33 kcal/mol and -19.13 kcal/mol, suggesting that these compounds bind with LDM with higher binding affinity than the benchmark compound (itraconazole), which has a Glide score of -6.85 kcal/mol. Docking poses reveal that the compounds C1 and C3 bind to the outermost region of the LDM binding site, which can prevent the lanosterol from getting into the catalytic pocket. Furthermore, MD simulation studies were performed to assess the stability of C1 and C3 in complex with LDM and were found to be stable over the 100 nanosecond simulation time. Binding free energy calculated by the MMPBSA method suggested that the C3 forms a more stable complex with the LDM as close to the benchmark compounds. Among the top selected molecules, C1 and C3 were predicted to be the significant inhibitors of LDM.Communicated by Ramaswamy H. Sarma.
Keywords: Lanosterol 14-α demethylase; free energy calculation; molecular docking; molecular dynamic simulation; phytochemical; virtual screening.