Alternate substrates of dopamine beta-hydroxylase. I. Kinetic investigations of benzyl cyanides as substrates and inhibitors.

A series of benzyl cyanide analogs have been studied as substrates and inhibitors of dopamine beta-hydroxylase to extend our initial report (Baldoni, J. M., and Villafranca, J. J. (1980) J. Biol. Chem. 255, 8987-8990) which showed that p-hydroxybenzyl cyanide was a suicide substrate of dopamine beta-hydroxylase. Thus, the appVmax values for benzyl cyanide analogs decrease in the order p-OH greater than m-OH greater than H much greater than p-OCH3,m-OCH3; the m-OH, m-OCH3 and p-OCH3 analogs are competitive inhibitors versus tyramine in initial velocity studies. The Vmax values for tyramine and p-hydroxybenzyl cyanide are nearly identical at saturating O2 and ascorbate (pH 5.0, 37 degrees C) but the Km for O2 is 0.14 and 2.8 mM, respectively, with tyramine and p-hydroxybenzyl cyanide. Studies of the pH dependence of log V/K for tyramine show two pKa values of 5.2 and 5.8 while for m-hydroxybenzyl cyanide the values are 5.3 and 5.9. The log Vmax profile shows one pKa of 5.9 with tyramine as substrate. Thus, nearly identical enzymic groups are involved in binding and/or catalysis with these two substrates. All the benzyl cyanide analogs are suicide inactivators of dopamine beta-hydroxylase. With m-hydroxybenzyl cyanide, the partition between catalysis and inactivation (kcat/kinact) changed from approximately 600 to approximately 17 as the pH varied from 5.0 to 6.7. The log kinact versus pH profile shows one pKa value of 6.0, suggesting that an enzymic group must be deprotonated for maximal inactivation. Copper was essential for the suicide inactivation of dopamine beta-hydroxylase by benzyl cyanides and kinetic studies of partially inhibited dopamine beta-hydroxylase (approximately 50%) showed that inactive enzyme molecules were completely inactive. The following papers in this series discuss the partial reactivation of suicide-inhibited dopamine beta-hydroxylase and the stoichiometry of inactivation by benzyl cyanide analogs.