Inhibition of Monoamine Oxidases (MAOs) by Green Tea Extracts

Abstract

Monoamine oxidase (MAO) performs deamination of amines and is found bound to the outer mitochondrial membrane at high‐concentration in neuronal cells. There are two isoforms of MAO: MAO_A which oxidizes serotonin, noradrenaline and adrenaline, and MAO_B which oxidizes dopamine, b‐phenylethylamine (PEA), and benzylamine. Alterations in MAO activity can occur in some central and peripheral nervous system diseases. More specifically, heightened MAO_B activity in the brain occurs in Alzheimer's disease, Huntington's disease, Parkinson's disease and normal aging. Abnormal MAO_A activity has found to be associated with depression, anxiety and psychiatric disorders. Drugs have been developed and continue to be developed for both MAO_A and MAO_B as targets. MAO_A is inhibited by clorgyline and MAO_B is potently inhibited by both deprenyl and pargyline. Using these inhibitors as controls, a fluorescent activity assay was performed with commercially available catechins (green tea extracts), serotonin, and benzylamine substrates for MAO_A and MAO_B respectively, to investigate and confirm recent studies suggesting that green tea catechins (polyphenols) may be preventative for certain degenerative diseases and emotional illnesses utilizing MAOs as a target. Using a fluorescent assay, the Km value of serotonin to MAO_A was 1.75 μM and the Km value of benzylamine to MAO_B was 0.75 μM. The IC50 of clorgyline to MAO_A was 3.25 nM and that of deprenyl to MAO_B was 7.25 nM, in close agreement with the literature. The commercial catechins tested were found to have IC50s in the low‐to‐mid μM range (~50–750 μM). Efforts to purify catechins are underway to repeat these studies. Molecular docking of specific catechins into the MAO_A and MAO_B active sites resulted in binding constants in the low μM range (in agreement with experimentally determined Km values for natural substrates). Crystallization studies of MAO/catechin complexes are in progress.This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.