TY - JOUR T1 - In vitro differential metabolism of merbarone by xanthine oxidase and microsomal flavoenzymes. The role of reactive oxygen species. JF - Drug Metabolism and Disposition JO - Drug Metab Dispos SP - 410 LP - 414 VL - 21 IS - 3 AU - J F Muindi AU - Y W Stevens AU - R P Warrell, Jr AU - C W Young Y1 - 1993/05/01 UR - http://dmd.aspetjournals.org/content/21/3/410.abstract N2 - Merbarone (MB), a nonsedating derivative of thiobarbituric acid, was recently found to induce profound hypouricemia. When incubated with xanthine oxidase (XO) and hypoxanthine in vitro, MB is both an inhibitor of XO and degraded by the XO-hypoxanthine interaction. Compared with allopurinol (Ki = 0.025 microM), MB is a very weak inhibitor of XO (Ki = 51 +/- 8 microM). MB interacts with XO in the presence of hypoxanthine to yield three chromatographically separate products. One of these products has been identified by HPLC retention time and spectral characteristics as 2-oxo-2-desthiomerbarone (2-oxo-MB). The other two products are thought to be S-oxide intermediates in the oxidative desulfuration of this drug. Formation of these products was blocked by catalase, suggesting that the conversion was dependent on reactive oxygen species (especially H2O2) generated by the hypoxanthine-XO system. This suggestion was confirmed by incubating MB with H2O2. In vitro studies with rat liver microsomes have documented the formation of 2-oxo-MB and 4'-OH-MB (4'-OH-MB), the latter being identified by the characteristic HPLC retention time of its acetylated derivative. The formation of 4'-OH-MB has many characteristics of a cytochrome P-450-dependent monooxygenase reaction (NADPH requirement and SKF 525-A inhibition); formation of 2-oxo-MB occurs by a different mechanism that is, as yet, uncharacterized. Incubation of kidney microsomes with MB generated 2-oxo-desthiomerbarone but no detectable 4'-OH-MB.(ABSTRACT TRUNCATED AT 250 WORDS) ER -