Inhibition of monoamine oxidase (MAO) by α-ethylphenethylamine and N,α-diethylphenethylamine, two compounds related to dietary supplements

Abstract

Phenethylamines can interact with the metabolic enzyme monoamine oxidase (MAO), which can cause neurochemical dysfunction or changes in drug potency. A methamphetamine analog, N,α-diethylphenethylamine (N,α-DEPEA), was recently discovered in athletic performance-enhancing supplements, along with discovery of its metabolite, α-ethylphenethylamine (AEPEA). In vitro inhibition of human recombinant MAO by AEPEA and N,α-DEPEA was evaluated by measuring the fluorescence of 4-hydroxyquinoline produced from MAO substrate, kynuramine. AEPEA competitively inhibited human recombinant MAO A (Ki = 14.0 µM), which was 17-fold stronger compared to MAO B (Ki = 234 µM). Furthermore, N,α-DEPEA was a weak inhibitor of both MAO A (Ki = 251 µM) and MAO B (Ki = 159 µM). Trends regarding MAO A inhibition were explored among structural analogs, yielding the following ranking: amphetamine (Ki = 5.3 µM), AEPEA (Ki = 14.0 µM), methamphetamine (Ki = 17.2 µM), phentermine (Ki = 196 µM), and N,α-DEPEA (Ki = 251 µM). This study provides important data relating chemical structures and biochemical effects for two emerging compounds associated with dietary supplements.