Bacopa monnieri: A promising herbal approach for neurodegenerative disease treatment supported by in silico and in vitro research
Shehla Shoukat,
Muhammad Amir Zia,
Muhammad Uzair,
Kotb A. Attia,
Asmaa M. Abushady,
Sajid Fiaz,
Shaukat Ali,
Seung Hwan Yang,
Ghulam Muhammad Ali
Affiliations
Shehla Shoukat
Department of Plant Genomics and Biotechnology, PARC Institute of Advance Studies in Agriculture Research, Affiliated with Quaid-e-Azam University, National Agriculture Research Centre, Islamabad, Pakistan; National Institute for Genomics and Advanced Biotechnology, National Agriculture Research Centre, Islamabad, Pakistan; Corresponding author. Department of Plant Genomics and Biotechnology, PARC Institute of Advance Studies in Agriculture Research, Affiliated with Quaid-e-Azam University, National Agriculture Research Centre, Islamabad, Pakistan.
Muhammad Amir Zia
National Institute for Genomics and Advanced Biotechnology, National Agriculture Research Centre, Islamabad, Pakistan
Muhammad Uzair
National Institute for Genomics and Advanced Biotechnology, National Agriculture Research Centre, Islamabad, Pakistan
Kotb A. Attia
Department of Biochemistry, College of Science, King Saud University, P.O. Box 2455, 11451, Riyadh, Saudi Arabia
Asmaa M. Abushady
Biotechnology School, Nile University, 26th of July Corridor, Sheikh Zayed City, Giza, 12588, Egypt; Department of Genetics, Agriculture College, Ain Shams University, Cairo, Egypt
Sajid Fiaz
Department of Plant Breeding and Genetics, University of Haripur, 22620 Haripur, Pakistan
Shaukat Ali
National Institute for Genomics and Advanced Biotechnology, National Agriculture Research Centre, Islamabad, Pakistan; Corresponding author.
Seung Hwan Yang
Department of Biotechnology, Chonnam National University, Yeosu, 59626, Republic of Korea; Corresponding author.
Ghulam Muhammad Ali
Pakistan Agriculture Research Council, Islamabad, Pakistan
Neurodegenerative disorders, caused by progressive neuron loss, are a global health issue. Among the various factors implicated in their pathogenesis, dysregulation of acetylcholinesterase activity has been recognized as a key contributor. Acetylcholinesterase breaks down the neurotransmitter acetylcholine, important for neural transmission. Evaluating phyto-compounds from Bacopa monnieri Linn. through in vitro and in silico analysis may expand their role as alternative therapeutic agents by modulating the function of acetylcholinesterase and complementing existing treatments. To accomplish this objective, chemical structures of phyto-compounds were retrieved from PubChem database and subjected to in silico and in vitro approaches. Virtual screening was performed through molecular docking and molecular dynamic simulation resulting in four top hit compounds including quercetin, apigenin, wogonin, and bacopaside X (novel lead compound for acetylcholinesterase inhibitor) with least binding score. Further, dose dependent acetylcholinesterase inhibition biochemical assay depicted that bacopaside X, apigenin, quercetin, and wogonin exhibited strong potential against acetylcholinesterase with IC50 values of 12.78 μM, 13.83 μM, 12.73 μM and 15.48 μM respectively, in comparison with the donepezil (IC50: 0.0204 μM). The in silico and in vitro research suggests that B. monnieri phyto-compounds have the potential to modulate molecular targets associated with neurodegenerative diseases and have a role in neuroprotection.
