Altered Hepatobiliary Disposition of Acetaminophen Glucuronide in Isolated Perfused Livers from Multidrug Resistance-Associated Protein 2-Deficient TR- Rats

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Vol. 295, Issue 2, 512-518, November 2000

Altered Hepatobiliary Disposition of Acetaminophen Glucuronide in Isolated Perfused Livers from Multidrug Resistance-Associated Protein 2-Deficient TR Rats¹

Hao Xiong, Kenneth C. Turner² , E. Stacy Ward, Peter L. M. Jansen and Kim L. R. Brouwer

Division of Drug Delivery and Disposition, School of Pharmacy (H.X., K.C.T., K.L.R.B.) and Curriculum in Toxicology, School of Medicine (E.S.W., K.L.R.B.), University of North Carolina at Chapel Hill, Chapel Hill, North Carolina; and Division of Gastroenterology and Hepatology, University Hospital, Gröningen, The Netherlands (P.L.M.J.)

Previous studies have demonstrated that phenobarbital treatment impairs the biliary excretion of acetaminophen glucuronide(AG), although the transport system(s) responsible for AG excretioninto bile has not been identified. Initial studies in rat canalicularliver plasma membrane vesicles indicated that AG uptake was stimulatedmodestly by ATP, but not by membrane potential, HCO₃, or pH gradients. To examine the role of the ATP-dependent canaliculartransporter multidrug resistance-associated protein 2 (Mrp2)/canalicularmultispecific organic anion transporter (cMOAT) in the biliaryexcretion of AG, the hepatobiliary disposition of acetaminophen,AG, and acetaminophen sulfate (AS) was examined in isolated perfusedlivers from control and TR (Mrp2-deficient) Wistar rats. Mean bile flow in TR livers was ~0.3 µl/min/g of liver (~4-fold lower than control).AG biliary excretion was decreased (>300-fold) to negligible levelsin TR rat livers, indicating that AG is an Mrp2 substrate. Similarly,AS biliary excretion in TR livers was decreased (~5-fold); however, concentrations werestill measurable, suggesting that multiple mechanisms, includingMrp2-mediated active transport, may be involved in AS biliaryexcretion. AG and AS perfusate concentrations were significantlyhigher in livers from TR compared with control rats. Pharmacokinetic modeling of the datarevealed that the rate constant for basolateral egress of AG increasedsignificantly from 0.028 to 0.206 min¹, consistent with up-regulation of a basolateral organic aniontransporter in Mrp2-deficient rat livers. In conclusion, thesedata indicate that AG biliary excretion is mediated by Mrp2, andclearly demonstrate that substrate disposition may be influencedby alterations in complementary transport systems in transport-deficientanimals.

¹ This work was supported by National Institutes of Health Grant GM41935 and National Institute of Environmental Health SciencesGrant T32ES07126.

² Current address: Bristol-Myers Squibb, P.O. Box 4000, Princeton, NJ08543.

0022-3565/00/2952-0512$03.00/0
THE JOURNAL OF PHARMACOLOGY AND EXPERIMENTAL THERAPEUTICS
Copyright © 2000 by The American Society for Pharmacology and Experimental Therapeutics

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