Hepatobiliary Disposition of 3α,6α,7α,12α-Tetrahydroxy-Cholanoyl Taurine: A Substrate for Multiple Canalicular Transporters

Tetrahydroxy bile acids become major biliary bile acids in Bsep(−/−) mice and Fxr(−/−) mice fed cholic acid; we characterized disposition of these novel bile acids that also occur in patients with cholestasis. We investigated mouse Mrp2 (mMrp2) and P-glycoprotein [(P-gp) mMdr1a]-mediated transport o...

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Veröffentlicht in:Drug metabolism and disposition 2010-10, Vol.38 (10), p.1723-1730
Hauptverfasser: MEGARAJ, Vandana, LIDA, Takashi, JUNGSUWADEE, Paiboon, HOFMANN, Alan F, VORE, Mary
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Sprache:eng
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Zusammenfassung:Tetrahydroxy bile acids become major biliary bile acids in Bsep(−/−) mice and Fxr(−/−) mice fed cholic acid; we characterized disposition of these novel bile acids that also occur in patients with cholestasis. We investigated mouse Mrp2 (mMrp2) and P-glycoprotein [(P-gp) mMdr1a]-mediated transport of a tetrahydroxy bile acid, 6α-OH-taurocholic acid (6α-OH-TC), and its biliary excretion in wild-type and Mrp2(−/−) mice in the presence or absence of N -(4-[2-(1,2,3,4-tetrahydro-6,7-dimethoxy-2-isoquinolinyl)ethyl]-phenyl)-9,10-dihydro-5-methoxy-9-oxo-4-acridine carboxamide (GF120918), a P-gp and breast cancer resistance protein inhibitor. 6α-OH-TC was rapidly excreted into bile of wild-type mice (78% recovery); coinfusion of GF120918 had no significant effect. In Mrp2(−/−) mice, biliary excretion was decreased (52% recovery) and coinfusion of GF120918 further decreased these values (34% recovery). In wild-type, but not Mrp2(−/−), mice, 6α-OH-TC increased bile flow 2.5-fold. Membrane vesicle transport studies of 6α-OH-TC (0.05–0.75 mM) yielded saturation kinetics with a higher apparent affinity for mMrp2 ( K m = 0.13 mM) than for mMdr1a ( K m = 0.33 mM); mBsep transported 6α-OH-TC with positive cooperativity (Hill slope = 2.1). Human multidrug resistance-associated protein (MRP) 2 and P-gp also transported 6α-OH-TC but with positive cooperativity (Hill slope = 3.6 and 1.6, respectively). After intraileal administration, the time course of 6α-OH-TC biliary recovery was similar to that of coinfused taurocholate, implying that 6α-OH-TC can undergo enterohepatic cycling. Thus, Mrp2 plays a key role in 6α-OH-TC biliary excretion, whereas P-glycoprotein plays a secondary role; Bsep likely mediates excretion of 6α-OH-TC in the absence of Mrp2 and P-gp. In Bsep(−/−) mice, efficient synthesis of tetrahydroxy bile acids that are Mrp2 and P-gp substrates can explain the noncholestatic phenotype.
ISSN:0090-9556
1521-009X
DOI:10.1124/dmd.110.033480