Abstract
This study describes the metabolic fate of trans-4'-methoxyprop-[1-14C]enylbenzene, the natural flavor compound trans-anethole, in rats and mice given single doses of 250 mg/kg body weight. In both rats and mice, an essentially quantitative (> 95% of dose) recovery of 14C was obtained with the majority in the 0-24 hr urine. Separation and identification of 18 urinary anethole metabolites were achieved by radio-HPLC, chemical derivatization, and GC/ MS. Anethole undergoes three primary oxidation pathways-O-demethylation, omega-side chain oxidation, and side chain epoxidation-followed by a variety of secondary pathways of oxidation and hydration, the products of which are extensively conjugated with sulfate, glucuronic acid, glycine, and glutathione. A novel major metabolite has been characterized in the rat, apparently originating from conjugation of the epoxide with glutathione, namely S-[1-(4'-methoxyphenyl)-2-hydroxypropane]-N-acetylcysteine. These metabolites are discussed in terms of the pathways responsible for and the toxicological consequences of their formation.
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