Molecular docking studies of bacoside from Bacopa monnieri with LRRK2 receptor

Bacosides, constituents of Bacopa monnieri (Linn.), are reported to be potential therapeutic saponins in the cure of Parkinson’s disease (PD). However, detailed mechanism for control of PD by bacosides is not well documented. PD has been reported to be caused by genetic mutations in leucine-rich repeat kinase 2 (LRRK2) leading to higher kinase activity that has been identified as a major cause of familial PD. The LRRK2 was thus proposed as an important marker in the pathogenesis of PD. This suggests that inhibition of LRRK2 holds promise as a potential treatment for PD. Our study focuses on the possible application of bacoside A constituents as potential inhibitors of LRRK2. In this work, we have carried out the in silico molecular docking studies of bacoside A constituents with LRRK2, proposing their role as an inhibitor in PD. The study has revealed the significant interactions between bacosaponin and LRRK2 having ten H-bonds at receptor-ligand site with binding affinity −7.5 kcal/mol. Hence, amongst the studied triglycosidic saponins, bacosaponin was analyzed to be a better ligand, proposing it to be a major constituent in inhibiting enzymatic activities of mutated LRRK2.