Effects of colchicine on the maximum biliary excretion of cholephilic compounds in rats.

BACKGROUND AND AIM: Colchicine, an inhibitor of intracellular vesicular transport, has been reported to inhibit the biliary excretion of bile acids and organic anions, but the previous findings are controversial. In order to systematically evaluate the effect of colchicine on the biliary excretion of cholephilic compounds, we studied the effect of colchicine on the biliary excretion of substrates of various canalicular transporters, which were administered at or above the excretory maximum in rats. METHODS: Substrates of various canalicular adenosine triphosphate-binding-cassette transporters were infused at or above the rate of maximum excretion into rats, and the effect of colchicine (0.2 mg/100 g), which was intraperitoneally injected 3 h before, on the biliary excretion was studied. Furthermore, the effect of tauroursodeoxycholate (TUDC) co-infusion on the biliary excretion of taurocholate (TC) after colchicine treatment was also studied. RESULTS: The biliary excretion of TC and cholate administered at the rate of 1 micro mol/min/100 g was markedly inhibited by colchicine, whereas that of TUDC was not inhibited even with the infusion rate of 2 micro mol/min/100 g. TUDC co-infusion at the rate of 1 micro mol/min/100 g increased the biliary excretion of TC (1 micro mol/min/100 g), which was decreased by the colchicine pretreatment. The biliary excretory maximum of taurolithocholate-sulfate and sulfobromophthalein, substrates of the multidrug resistance protein 2, of erythromycin, a substrate of the P-glycoprotein, and of indocyanine green were not affected by colchicine. CONCLUSIONS: The different excretory maximums of TC and TUDC and the different effect of colchicine on the excretion of these bile acids are considered to be a result of different regulatory mechanisms of vesicular targeting of the bile salt export pump to the canalicular membrane by these bile acid conjugates. The vesicular targeting of the multidrug resistance protein 2 and the P-glycoprotein to the canalicular membrane is considered to be colchicine insensitive in the absence of bile acid coadministration.

Comparison of urinary excretion of pravastatin and temocapril in bile duct-ligated rats and Eisai hyperbilirubinemic rats (EHBR).

BACKGROUND/PURPOSE: In patients with complete bile duct obstruction, the only pathway for the elimination of cholephilic compounds is through the urine. Although changes in various transporters in the liver and kidney in cholestasis have been elucidated, little is known about how effectively the elimination of these compounds is compensated for by urinary excretion. METHODS: In the present study, the urinary excretion of pravastatin and temocapril was studied in bile-duct-ligated rats (BDLR) for 3 days and in Eisai hyperbilirubinemic rats (EHBR). After urinary bladder cannulation, radiolabeled pravastatin and temocapril were injected intravenously. Urine samples were collected every 1 h for 4 h, and the radioactivity was counted. RESULTS: Urinary excretion of pravastatin was markedly increased in BDLR (85.9% of the dose after 4 h) and moderately increased in EHBR (35.9% of the dose after 4 h) compared with that in control rats (5.5% of the dose after 4 h). Similar but less prominent differences were observed with temocapril after it was administered (50.7%, 38.2%, and 22.0% of the dose after 4 h in BDLR, EHBR, and the controls, respectively). CONCLUSIONS: The absence of biliary excretion of anionic drugs was compensated for by urinary excretion in BDLR and EHBR, and the compensation was more efficient with pravastatin than with temocapril. In patients with complete bile duct obstruction, the only pathway for the elimination of cholephilic compounds is through the urine. Although changes in various transporters in the liver and kidney in cholestasis have been elucidated, little is known about how effectively the elimination of these compounds is compensated for by urinary excretion.