Abstract
The pharmacokinetics of a dopamine derivative, TA-870, and dopamine (DA) after oral administration are compared in rats and dogs. The maximum concentrations of free DA in plasma after oral administration of TA-870 were 150 ng/ml in the rat (30 mg/kg) and 234 ng/ml in the dog (33.5 mg/kg). On the contrary, the maximum plasma concentrations after oral administration of DA at an equimolar dose to TA-870 were 12 ng/ml in the rat (12 mg/kg) and 36 ng/ml in the dog (13.5 mg/kg). The AUC values of free DA in plasma after oral administration of TA-870 (30 or 33.5 mg/kg) were 4-6 times higher than those after DA in both animal species. The peak tissue levels of radioactivity in rats after oral administration of [14C]TA-870 (30 mg/kg) were also 5.5 times higher in the liver and 1-2 times higher in other tissues than those after [14C]DA dose (12 mg/kg). In rats, the main excretion route of radioactivity after oral administration of [14C]TA-870 or DA was via the urine. The total recoveries of radioactivity in the urine and feces were 91-96% of the dose within 24 hr for both compounds. Biliary excretion in rats accounted for 19.8% of the dose of [14C]TA-870 and 12.6% of the dose of [14C]DA within 24 hr. These results demonstrate that TA-870 was well absorbed from the digestive tract, extensively metabolized to dopamine, and proved to be an orally usable dopamine prodrug.