Species Differences in the Selective Inhibition of Monoamine Oxidase (1-methyl-2-phenylethyl)hydrazine and its Potentiation by Cyanide

Abstract

The potentiating effects of cyanide on the inhibition of rat liver mitochondrial monoamine oxidase-A & B and of ox liver mitochondrial MAO-B by pheniprazine [(1-methyl-2-phenylethyl)hydrazine] has been studied. Pheniprazine was shown to behave as a mechanism-based MAO inhibitor. For rat liver MAO-B, the initial non-covalent step was characterized by dissociation constant (K (i)) of 2450 nM and the first-order rate constant (k (+2)) for the covalent adduct formation was 0.16 min(-1). As a reversible inhibitor it was selective towards rat liver MAO-A (K (i) = 420 nM) but the rate of irreversible inhibition of that enzyme was considerably slower (k (+2) = 0.06 min(-1)). MAO-B from ox liver more closely resembled MAO-A from the rat in sensitivity to reversible inhibition by pheniprazine (K (i) = 450 nm) but it was closer to rat liver MAO-B in rate of irreversible inhibition (k (+2) = 0.29 min(-1)). The K (i) values were significantly decreased in the presence of KCN but there was little effect on the k (+2) values. However, sensitivities of the different enzymes to KCN varied widely and considerably higher concentrations of KCN were required for this effect to be apparent with the rat liver mitochondrial MAO-A than with MAO-B from rat and ox liver. The kinetic behaviour of cyanide activation was consistent with partial (non-essential) competitive activation in all cases.