Evidence that Ionization of Zinc‐Bound Water Regulates the Anion‐Binding Capacity of the Coenzyme‐Binding Site in Liver Alcohol Dehydrogenase

Abstract: 1. The mechanistic and structural origin of the pKa 9.2 dependence of coenzyme association and anion binding to liver alcohol dehydrogenase has been investigated by titrimetric and spectrophotometric binding studies involving ligands (imidazole, 1,lO-phenanthroline and 2,2'-bipyridine) which combine to the catalytic zinc ion of the enzyme subunit with displacement of zinc-bound water.2. Imidazole abolishes the pKa9.2 dependence of NADH binding to the enzyme. The pH dependence of ADP-ribose and Pt(CN)$-binding … Show more

“…A fit of Eqns (1) and (2) to data in Fig. 3 gave Kapp = 23 ( & 3) pM, however, which corresponds to a cooperativity factor CI = 48 in Eqn (3). Similar analysis of data obtained with 1.2mM CN-gave Kapp = 17pM and o!…”

“…The kinetics of bipyridine binding to the enzyme were examined as described by Anderson et al [3]. Complex formation between enzyme (1 -30pM) and NADi (0.5 -200pM) was monitored photometrically at 275 nm by stopped-flow techniques.…”

“…Since a zinc-bound cyanide ion is unlikely to interfere sterically with coenzyme binding [l], the observed cooperativity effects can be assumed to derive almost exclusively from electrostatic interactions. According to previously advanced ideas [3], charge interactions of zinc-bound CN-with the coenzyme pyrophosphate group (probably mediated by the side chain of Arg-47) are likely to provide a major contribution to the observed destabilization of NADH binding. Stabilization of the binding of NAD' is certainly achieved through charge interaction of CN-with the coenzyme nicotinamide ring, which is bound in close proximity to catalytic zinc [l].…”

“…Bipyridine binding to the enzyme.CN-complex was found to be rate-limited by an apparent first-order process with a rate constant tending towards 25 s-with increasing bipyridine concentrations. According to the kinetic theory for displacement reactions and reported data for bipyridine binding [3], the latter value can be taken to provide a comparatively precise estimate of the rate constant for CN-dissociation from the enzyme. This estimate corresponds (Table 1) CN-Complex formation between enzyme and C N -was found not to be associated with any detectable absorption changes in the 300 -800-nm region.…”

“…Such discussions have focused on the identity and mechanistic significance of the ionizing groups which control coenzyme and substrate binding to the enzyme. We have attributed the observed pH dependence of coenzyme binding to electrostatic interactions reflecting ionization of the water molecule which is bound at the catalytic zinc ion of the enzyme subunit [3]. Charged groups on NADH and NAD' were assumed to interact strongly enough with a zinc-bound hydroxyl ion to account for the pK, values assigned to zincbound water in different enzyme species [4].…”

Electrostatic field effects of coenzymes on ligand binding to catalytic zinc in liver alcohol dehydrogenase

“…A fit of Eqns (1) and (2) to data in Fig. 3 gave Kapp = 23 ( & 3) pM, however, which corresponds to a cooperativity factor CI = 48 in Eqn (3). Similar analysis of data obtained with 1.2mM CN-gave Kapp = 17pM and o!…”

“…The kinetics of bipyridine binding to the enzyme were examined as described by Anderson et al [3]. Complex formation between enzyme (1 -30pM) and NADi (0.5 -200pM) was monitored photometrically at 275 nm by stopped-flow techniques.…”

“…Since a zinc-bound cyanide ion is unlikely to interfere sterically with coenzyme binding [l], the observed cooperativity effects can be assumed to derive almost exclusively from electrostatic interactions. According to previously advanced ideas [3], charge interactions of zinc-bound CN-with the coenzyme pyrophosphate group (probably mediated by the side chain of Arg-47) are likely to provide a major contribution to the observed destabilization of NADH binding. Stabilization of the binding of NAD' is certainly achieved through charge interaction of CN-with the coenzyme nicotinamide ring, which is bound in close proximity to catalytic zinc [l].…”

“…Bipyridine binding to the enzyme.CN-complex was found to be rate-limited by an apparent first-order process with a rate constant tending towards 25 s-with increasing bipyridine concentrations. According to the kinetic theory for displacement reactions and reported data for bipyridine binding [3], the latter value can be taken to provide a comparatively precise estimate of the rate constant for CN-dissociation from the enzyme. This estimate corresponds (Table 1) CN-Complex formation between enzyme and C N -was found not to be associated with any detectable absorption changes in the 300 -800-nm region.…”

“…Such discussions have focused on the identity and mechanistic significance of the ionizing groups which control coenzyme and substrate binding to the enzyme. We have attributed the observed pH dependence of coenzyme binding to electrostatic interactions reflecting ionization of the water molecule which is bound at the catalytic zinc ion of the enzyme subunit [3]. Charged groups on NADH and NAD' were assumed to interact strongly enough with a zinc-bound hydroxyl ion to account for the pK, values assigned to zincbound water in different enzyme species [4].…”

Electrostatic field effects of coenzymes on ligand binding to catalytic zinc in liver alcohol dehydrogenase

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