Abstract
The metabolism of denopamine, (R)-(-)-1-(p-hydroxyphenyl)-2-[(3,4-dimethoxyphenethyl)amino] ethanol, a new, orally active, selectively inotropic cardiotonic agent, was studied in the rat and dog. Animals were given single oral doses of 5 mg/kg of denopamine labeled with 14C. Denopamine was metabolized in the rat and dog by several pathways including conjugation, side chain oxidation, and ring hydroxylation followed by O-methylation. Rats excreted the drug in the urine almost entirely as unchanged drug and its phenolic O-glucuronide whereas in the dog, the major metabolites were the phenolic O-glucuronide, the alcoholic O-glucuronide, and the phenolic O-sulfate of denopamine and the phenolic O-glucuronide of 3-methoxydenopamine. Demethylation, which has been shown to be a major metabolic pathway in man, and side chain oxidation were minor pathways in the rat and dog. Furthermore, a high degree of stereoselective resistance of the alcoholic O-glucuronide of denopamine to hydrolysis by beta-glucuronidase was observed.
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