Regulation of expression and activity of rat intestinal multidrug resistance-associated protein 2 by cholestatic estrogens

ARIAS A; VILLANUEVA SSM; RUIZ ML; LUQUITA MG; VEGGI LM; PELLEGRINO JM; VORE M; CATANIA VA; MOTTINO AD

Drug Metabolism and Disposition

Año: 2009 vol. 37 p. 1277 - 1285

0090-9556

The effect of the cholestatic estrogens ethynylestradiol (EE) and estradiol 17beta-D-glucuronide (E2-17G) on expression and activity of intestinal multidrug resistant-associated protein 2 (Mrp2, Abcc2) was studied in rats. Expression and localization of Mrp2 were evaluated by Western blotting, real-time polymerase chain reaction, and confocal immunofluorescence microscopy. Mrp2 transport activity toward dinitrophenyl-S-glutathione (DNP-SG) was assessed in vitro in intestinal sacs. EE, administered subcutaneously at a 5 mg/kg b.wt. dose, for 5 consecutive days, produced a marked decrease in Mrp2 expression at post-transcriptional level, without affecting its normal localization at the apical membrane of the enterocyte. This effect was selective because expression of other ATP-binding cassette proteins such as breast cancer resistance protein and Mrp3 were not affected and that of multidrug resistance protein 1 was only minimally impaired. Consistent with down-regulation of expression of Mrp2, a significant impairment in serosal to mucosal transport of DNP-SG and in protection against absorption of this same compound were registered. Simultaneous administration of EE with spironolactone (200 micromol/kg b.wt./day for 3 days), an Mrp2 inducer, prevented these alterations, confirming down-regulation of expression of Mrp2 by EE as a major component of functional changes. Incorporation of E2-17G (30 microM) in the serosal medium of intestinal sacs decreased serosal to mucosal transport of DNP-SG, probably because of competitive inhibition, without affecting normal Mrp2 expression or localization. Our data indicate impairment of function of intestinal Mrp2 by both cholestatic estrogens, although through a different mechanism. This finding represents an aggravation of deteriorated hepatic Mrp2 function that could further increase bioavailability of specific xenobiotics after oral exposure.