Intestinal absorption and excretion of troglitazone sulphate, a major biliary metabolite of troglitazone.

1. Deconjugation by sulphate transfer and intestinal absorption of troglitazone sulphate (M1), the major metabolite of a thiazolidinedione antidiabetic drug, troglitazone, were studied in the male F344 rat using 14C-troglitazone, 4C-M1 and 35S-M1. 2. Some part of M1, produced in the liver and excreted mostly in the bile, was deconjugated in the intestine to the parent compound, troglitazone, by arylsulphate sulphotransferase originated from intestinal flora. However, deconjugation of M1 was not catalyzed by arylsulphatases. Caecal injection of M1 led to the appearance of troglitazone and M1 in plasma. 3. Biliary excretion mostly as M1, and, following absorption, as M1 and troglitazone after deconjugation, were indicated as the basis for the enterohepatic circulation of troglitazone. 4. Enterohepatic circulation may prolong the pharmacological effects of troglitazone.

Disposition and metabolism of the new oral antidiabetic drug troglitazone in rats, mice and dogs.

The pharmacokinetics of troglitazone (CAS 97322-87-7, CS-045), a new oral antidiabetic drug for the treatment of non-insulin-dependent diabetes mellitus (NIDDM), were investigated in rats, mice and dogs following oral and intravenous administration of 14C-labeled troglitazone at doses of 5 mg/kg. The absorption rates, calculated from the AUC ratios of total radioactivity after oral and intravenous administration, or from the biliary excretion rate after intraduodenal administration in rats were both as high as 75%. High uptake by the liver, one of the pharmacological target organs, was demonstrated in both rats and mice. Furthermore, in the KK mouse, an obese NIDDM model animal, the radioactivity was incorporated selectively as troglitazone itself to muscle, the peripheral target organ. Troglitazone reversibly bound to serum albumin with a high ratio (> 99%). Troglitazone was mostly metabolized to the conjugates: sulfate (M 1) and glucuronide (M 2). The oxidized metabolite, a quinone-type metabolite (M 3), was found to be further metabolized to the sulfate (U 2). The biliary excretion rates of these conjugates were high in each animal, and the occurrence of enterohepatic circulation of the conjugates was also suggested. Sex differences in pharmacokinetics were observed in rats; i.e. females showed a higher plasma concentration of troglitazone, and a lower concentration of M 1, than males, and they excreted the sex-related metabolite, a hydroxylated M 1 (U 1), in the bile.