Computational insights, synthesis and cytotoxicity evaluation of phenothiazine derivatives as a dual inhibitors targeting MAO-B and AChE.

Alzheimer's disease is a paragon of neurodegenerative diseases with prominent vagueness of cognitive impairment due to dysregulation of cholinergic and monoaminergic systems. This research employed molecular mechanics and quantum Mechanics to evaluate the plausible role of designed phenothiazine-derivatives as dual MAO-B and Acetylcholinesterase inhibitors. Synthesis and Cytotoxicity studies were performed for the eloquent molecules. In-silico studies revealed that halogens may enhance the binding affinity of compounds towards the target. NJ3b-d exhibited moderate inhibition in the SH-SY5Y cell lines compared with memantine (IC35.88 μg/ml). 150 ns MD studies revealed the stability of NJ3c (IC48.06 μg/ml) in the catalytic pockets of enzymes. DFT, pKa, BDE, Fukui-function, Epik-state, and membrane-permeability studies were performed to analyze the chemical stability and permeability. The results of QM displayed the compound NJ3c as BBB-permeable and it has thermal and kinetic stability. Our findings suggested that NJ3c can be considered a potential candidate for dual targeting MAO-B and Acetylcholinesterase.