Studies on the subcellular localization of monoamine oxidase types A and B and its importance for the deamination of dopamine in the rat brain

Abstract

The distribution of the MAO-forms A and B between intra- and extrasynaptosomal rat brain mitochondria was studied with the aid of their known substrate and inhibitor specificities. The activities with the selective substrates serotonin, PEA and benzylamine indicated that intrasynaptosomal mitochondria have about a 3.4-fold higher MAO A:MAO B ratio than extrasynaptosomal mitochondria. However, PEA was found to be a selective substrate for MAO B only at low concentrations (such as 5 × 10 −6M), whereas at higher concentrations (such as 10 −3M) it was a substrate for both forms of MAO. The different ratios of the two enzyme forms in the two mitochondrial populations were confirmed when the selective inhibitors clorgyline and deprenyl were used with dopamine or 10 −3M PEA. With these two amines, the ratios of MAO A: MAO B activities were 3–4.5 times higher in intrasynaptosomal than in extrasynaptosomal mitochondria. In particular, when the activity with dopamine was measured in intact synaptosomes, deamination being preceded by a specific uptake into these particles, the inhibitor sensitivities clearly showed that MAO activity was almost exclusively attributable to the A-form of the enzyme. Thus, mitochondria in the terminals of dopaminergic neurones have an even more pronounced enrichment in MAO A than the mitochondria obtained by osmotic lysis of a total brain synaptosomal preparation. It was also found that clorgyline and deprenyl have an inhibitory effect on the uptake of dopamine into nerve endings with IC 50 values in the range of 10 −5 to 10 −4M. These results are discussed in terms of possible physiological significancies of the properties and distribution of the two forms of MAO.