Synergism between coenzyme and carboxylate binding to liver alcohol dehydrogenase

Abstract

1. The interaction of decanoate and benzoate with the substrate-binding site in liver alcohol dehydrogenase has been characterized by fluorimetric equilibrium binding studies, using auramine O as a receptor ligand. 2. The affinity of the enzyme for the carboxylates examined decreases about 50-fold on complex formation with NADH. The coenzyme-competitive inhibitors ADP-ribose and Pt(CN)2(4)- have similar destabilizing effect on decanoate binding, indicating that the effect of NADH derives from its negatively charged pyrophosphate group. 3. Carboxylate binding to free enzyme requires the protonated form of an ionizing enzymic group with pKa 9.2, while there is no corresponding effect on pH on binary complex formation with auramine O. Carboxylate binding to the enzyme X NADH complex exhibits no significant dependence on pH over the pH range 7-10. 4. The results, combined with previously reported data for decanoate binding to the enzyme X NAD+ complex, provide clear evidence that carboxylates (in contrast to auramine O) are bound at the active-site zinc ion of the enzyme in a process by the ionization state of zinc-bound water. The synergistic effect of NADH and NAD+ on carboxylate binding can be qualitatively and quantitatively explained in terms of electrostatic interactions analogous to those proposed to account for the effect of coenzymes on the pKa of zinc-bound water.