Induction of Multidrug resistance associated protein 2 (Mrp2) in rat intestine

MARÍA L. RUIZ; SILVINA S.M. VILLANUEVA; MARCELO G. LUQUITA; JOSÉ M. PELLEGRINO; JUAN P. RIGALLI; AGOSTINA ARIAS; ENRIQUE J. SÁNCHEZ POZZI; ALDO D. MOTTINO; VIVIANA A. CATANIA

EUROPEAN JOURNAL OF PHARMACOLOGY

Elsevier

Año: 2009 vol. 623 p. 103 - 106

0014-2999

The effect of spironolactone (SL) pretreatment (200 ìmol/kg b.w./day, 3 consecutive days) on intestinal multidrug resistance-associated protein 2 (Mrp2) was evaluated in rats. A significant increase in protein levels in upper regions of small intestine, where Mrp2 is mainly present, was detected by western blotting. Real time PCR studies suggest a transcriptional regulation. The administration of ketoconazole, a pregnane X receptor (PXR) antagonist, was able to prevent the increase in Mrp2 mRNA levels induced by SL. The serosal to mucosal transport of dinitrophenyl S-glutathione, a model substrate of Mrp2 was evaluated in jejunal sac model. The data indicate that SL increased Mrp2 activity, well correlating with its up-regulation. We conclude that SL is able to induce intestinal Mrp2 transcriptionally, PXR being a potential mediator. We propose that SL could be of potential therapeutic application particularly in situations of down-regulation of intestinal Mrp2.ìmol/kg b.w./day, 3 consecutive days) on intestinal multidrug resistance-associated protein 2 (Mrp2) was evaluated in rats. A significant increase in protein levels in upper regions of small intestine, where Mrp2 is mainly present, was detected by western blotting. Real time PCR studies suggest a transcriptional regulation. The administration of ketoconazole, a pregnane X receptor (PXR) antagonist, was able to prevent the increase in Mrp2 mRNA levels induced by SL. The serosal to mucosal transport of dinitrophenyl S-glutathione, a model substrate of Mrp2 was evaluated in jejunal sac model. The data indicate that SL increased Mrp2 activity, well correlating with its up-regulation. We conclude that SL is able to induce intestinal Mrp2 transcriptionally, PXR being a potential mediator. We propose that SL could be of potential therapeutic application particularly in situations of down-regulation of intestinal Mrp2.