Dose-dependent kinetics of all-trans-retinoic acid in rats. Plasma levels and excretion into bile, urine, and faeces.

Abstract Plasma concentration-time curves for all-trans-retinoic acid (RA) after 0.015.0.25 or 5 mg/kg, i.V., deviated from first-order kinetics in the rat. Within 10 min after the i.v. infusion, a rapid, dose-dependent decrease in RA concentration was observed (slope steepest at the lowest dose). During a secondary phase of slower decline, the times required to halve the RA concentration after 0.015, 0.25 and 5 mg/kg were 40, 65 and 120 min respectively. At later times, the concentration-time curves for all three dose levels assumed a fast rate of decline (half-life about 19 min at the lower dose). The dose-dependent kinetics of RA in plasma were not due to enterohepatic recirculation of RA, since RA levels in plasma were not lower in rats with biliary fistulas given comparable doses. In contrast, circulating levels of RA metabolites remained elevated for several hours and were significantly diminished by interruption of the enterohepatic circulation. After a dose of [10-3H]RA, the rate of biliary excretion of radiolabeled material was initially slower after 5 mg/kg RA than after 0.015 mg/kg RA. Within the first 24 hr, however, approximately the same proportion of both doses appeared in bile. All-trans-retinoyl-β-glucuronide is only a minor biliary metabolite of RA. Glucuronidation of RA was dose-dependent, since the percentage of total biliary metabolites represented by all-trans-retinoyl-β-glucuronide increased with increasing dose. Renal excretion of RA and its metabolites was significantly decreased by interruption of the enterohepatic circulation. The percentage of dose excreted in the urine decreased with increasing dose.

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