Quinolinyl-thienyl chalcones as monoamine oxidase inhibitors and their in silico modeling studies.

Mitochondrial enzymes monoamine oxidases were thought to be an emerging and useful therapeutic target for neurodegenerative disorders. Monoamine oxidases have two isoforms, A and B. MAO-A is related with metabolism of amine neurotransmitters in the brain whereas MAO-B is concerned with aging related neurodegenerative disorders. Therefore the identification, characterization and discovery of potent MAO-A and B inhibitors is very crucial in research. A series of quinolyl-thienyl chalcones were tested against MAO-A and B. Among the screened compounds, most of them revealed potent MAO-A and B inhibition. Compound 5i presented most potent MAO-A inhibition having IC50 values 0.047 µM, while 4l showed excellent inhibitory potency against MAO-B among all the tested compound having IC50 values 0.063 µM. Molecular modelling studies were performed against human MAO-A and MAO-B for the explanation of binding site interactions.