Mechanism-based inactivation of dopamine .beta.-hydroxylase by p-cresol and related alkylphenols

Abstract

The mechanism-based inhibition of dopamine .beta.-hydroxylase (DBH; EC 1.14.17.1) by p-cresol (4-methylphenol) and other simple structural analogues of dopamine, which lack a basic side-chain nitrogen, is reported. p-Cresol binds DBH by a mechanism that is kinetically indistinguishable from normal dopamine substrate binding [DeWolf, W. E., Jr., and Kruse, L. I. (1985) Biochemistry 24, 3379]. Under conditions (pH 6.6) of random oxygen and phenethylamine substrate addition [Ahn, N., and Klinman, J. P. (1983) Biochemistry 22, 3096] p-cresol adds randomly, whereas at pH 4.5 or in the presence of fumarate "activator" addition of p-cresol precedes oxygen binding as is observed with phenethylamine substrate. p-Cresol is shown to be a rapid (kinact = 2.0 min-1, pH 5.0) mechanism-based inactivator of DBH. This inactivation exhibits pseudo-first-order kinetics, is irreversible, is prevented by tyramine substrate or competitive inhibitor, and is dependent upon oxygen and ascorbic acid cosubstrates. Inhibition occurs with partial covalent incorporation of p-cresol into DBH. A plot of -log kinact vs. pH shows maximal inactivation occurs at pH 5.0 with dependence upon enzymatic groups with apparent pK values of 4.51 .+-. 0.06 and 5.12 .+-. 0.06. p-Cresol and related alkylphenols, unlike other mechanism-based inhibitors of DBH, lack a latent electrophile. These inhibitors are postulated to covalently modify DBH by a direct insertion of an aberrant substrate-derived benzylic radical into an active site residue.