Rat liver 3 alpha-hydroxysteroid dehydrogenase (3 alpha-HSD) (EC 1.1.1.50) is an NAD(P)(+)-dependent oxidoreductase that is potently inhibited at its active site by non-steroidal anti-inflammatory drugs (NSAIDs). Initial-velocity and product-inhibition studies performed in either direction at pH 7.0 are consistent with a sequential ordered Bi Bi mechanism in which pyridine nucleotide binds first and leaves last. This mechanism is supported by fluorescence titrations of the E-NADH complex, and by the failure to detect the binding of either [3H]androsterone or [3H]androstanedione to free enzyme by equilibrium dialysis. Dead-end inhibition studies with NSAIDs also support this mechanism. Initial-velocity studies with indomethacin show that this drug is an uncompetitive inhibitor against NAD+, but a potent competitive inhibitor against androsterone, indicating the ordered formation of an E.NAD+.indomethacin complex. Calculation of the individual rate constants reveals that the binding and release of pyridine nucleotide is rate-limiting and that isomerization of the central complex is favoured in the forward direction. Equilibrium dialysis experiments with [14C]indomethacin reveal the presence of two abortive NSAID complexes, a high-affinity ternary complex corresponding to E.NAD+.indomethacin (Kd = 1-2 microM for indomethacin) and a low-affinity binary complex corresponding to E.indomethacin (Kd = 22 microM for indomethacin). Since indomethacin has a low affinity for free enzyme, the formation of this abortive binary complex does not complicate kinetic measurements which are made in the presence of NAD+, but may contribute to the inhibition of the enzyme by NSAIDs. Using either pro-R-[4-3H]NADH or pro-S-[4-3H]NADH as cofactor, radiolabelled androsterone was formed only when the pro-R-[4-3H]NADH was used, confirming that purified 3 alpha-HSD is a Class A dehydrogenase.
Leukotriene B(4) (LTB(4)) is a pro-inflammatory mediator that has been implicated in the pathogenesis of a number of diseases including inflammatory bowel disease (IBD) and psoriasis. Since the action of LTA(4) hydrolase is the rate-limiting step for LTB(4) production, this enzyme represents an attractive pharmacological target for the suppression of LTB(4) production. From an in-house screening program, SC-22716 (1, 1-[2-(4-phenylphenoxy)ethyl]pyrrolidine) was identified as a potent inhibitor of LTA(4) hydrolase. Structure-activity relationship (SAR) studies around this structural class resulted in the identification of a number of novel, potent inhibitors of LTA(4) hydrolase, several of which demonstrated good oral activity in a mouse ex vivo whole blood assay.
The acetylenic analogue of adenosine 9-(5',6'-dideoxy-beta-D-ribo-hex-5'-ynofuranosyl)adenine has been synthesized, and its behavior as an inhibitor of bovine S-adenosylhomocysteine hydrolase has been examined. Incubation of the enzyme with excess inhibitor caused a time-dependent, irreversible inactivation of the enzyme that was accompanied by the reduction of two equivalents of NAD+ to NADH and the loss of the two remaining equivalents of NAD+. With use of radiolabeled inhibitor, it was established that 4 equiv of the acetylenic analog bind irreversibly to the enzyme and that 4 equiv were required to inactivate the enzyme completely. The inactivated enzyme could not be reactivated by incubation with NAD+. Denaturation studies revealed that 2 equiv of the inhibitor are bound more tightly to the enzyme than the remainder, suggesting the formation of a covalent linkage between the oxidized inhibitor and the enzyme. The putative covalent linkage was found to be acid sensitive but stable to mild base. The linkage could not be stabilized by treatment of the enzyme-inhibitor complex with either borohydride or cyanoborohydride. A Kl of 173 nM was measured for the inhibitor, making it one of the more potent inhibitors that have been reported. The enzyme used in these studies was isolated by modification of an affinity chromatography method reported by Narayanan and Borchardt [(1988) Biochim. Biophys. Acta 965, 22-28]. The affinity chromatography unexpectedly led to the isolation of two forms of the enzyme. The major form contained 4.0 mol of nucleotide cofactor/mol of enzyme tetramer, while the minor form carried only 2.0 mol/tetramer.
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