Inhibition of monoamine oxidase by 3,4-dihydroxyphenyl L-alanine and its analogues

Abstract

L-3,4-Dihydroxyphenylalanine (DOPA) was found to inhibit type A monoamine oxidase in human placental mitochondria. The inhibition proved to be noncompetitive with the substrate, kynuramine, and the inhibition was completely reversible. D-DOPA was found to inhibit monoamine oxidase in the same way, and the apparent Ki values of L- and D-DOPA were obtained to be 154 microM and 133 microM, respectively. L-alpha-Methyl-DOPA was found to inhibit the MAO activity competitively with the substrate, but studies with other analogues of DOPA revealed that the inhibition required an amino and a carboxyl group at alpha-position. The substitution of a hydroxy group at 3 or 4 position of catechol ring with a methoxy group was found to abolish the inhibition of the MAO activity. In addition to type A MAO in human liver and placental mitochondria, type B MAO in liver mitochondria was inhibited by L-DOPA, but type B MAO was less sensitive to L-DOPA. These results were discussed in terms of its possible regulation of the level of biogenic amines in the brain.