Abstract
Class III P-glycoproteins (Pgps) mediate biliary phosphatidylcholine (PC) secretion. Recent findings that class I P-glycoproteins are able to transport several short-chain phospholipid analogues raises questions about the role of these Pgps in physiological lipid transport. We investigated the biliary secretion of C6-7-nitro-2,1, 3-benzoxadiazol-4-yl (NBD)-labeled ceramide and its metabolites in Mdr1a/b and Mdr2 knockout mice compared to control mice. Biliary secretion of these NBD-lipids was unaffected in Mdr1a/b -/- mice. Thus neither Mdr1a nor Mdr1b Pgp mediates biliary secretion of these lipids. In contrast, secretion of all three NBD-labeled short-chain phospholipids was significantly reduced in Mdr2 -/- mice. As in vitro studies revealed that Mdr2 Pgp is not able to translocate these lipid analogues, we hypothesized that Mdr2 -/- mice had a reduced PC content of the exoplasmic canalicular membrane leaflet so that extraction of the short-chain lipid probes from this membrane by canalicular bile salts was impaired. To investigate this possibility we studied the bile salt-mediated extraction of natural sphingomyelin (SM) and NBD-labeled short-chain SM from small unilamellar vesicles of different lipid composition. Natural SM could be extracted by the bile salt tauroursodeoxycholate from vesicles containing PC, cholesterol (CHOL), and SM (1:2:2) but not from vesicles containing only SM and CHOL (3:2). NBD-labeled short-chain SM could be extracted from vesicles containing PC while its extraction from pure SM:CHOL vesicles was reduced by 65%. These data confirm that the efficiency of NBD-SM extraction depends on the lipid composition and suggest that the canalicular membrane outer leaflet of Mdr2 -/- mice has a reduced PC content.
Highlights
Class III P-glycoproteins (Pgps) mediate biliary phosphatidylcholine (PC) secretion
Smit et al [1] provided evidence for translocation of natural PC in intact fibroblasts that express a MDR3 transgene. These results confirmed the proposed PC translocation function of the orthologues Mdr2 Pgp, Pgp3, and MDR3 Pgp and they explain the absence of biliary PC in Mdr2 knockout
Activity of Mdr2 P-glycoprotein in the canalicular membrane is an absolute requirement for phospholipid secretion
Summary
Class III P-glycoproteins (Pgps) mediate biliary phosphatidylcholine (PC) secretion. Recent findings that class I P-glycoproteins are able to transport several shortchain phospholipid analogues raises questions about the role of these Pgps in physiological lipid transport. As in vitro studies revealed that Mdr Pgp is not able to translocate these lipid analogues, we hypothesized that Mdr2 ؊/؊ mice had a reduced PC content of the exoplasmic canalicular membrane leaflet so that extraction of the short-chain lipid probes from this membrane by canalicular bile salts was impaired. NBDlabeled short-chain SM could be extracted from vesicles containing PC while its extraction from pure SM:CHOL vesicles was reduced by 65% These data confirm that the efficiency of NBD-SM extraction depends on the lipid composition and suggest that the canalicular membrane outer leaflet of Mdr2 ؊/؊ mice has a reduced PC content.— Frijters, C. These results confirmed the proposed PC translocation function of the orthologues Mdr Pgp (mouse), Pgp (rat), and MDR3 Pgp (human) and they explain the absence of biliary PC in Mdr knockout
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