Regulation of expression and activity of rat intestinal Mrp2 by cholestatic estrogens

AGOSTINA ARIAS; SILVINA S. M. VILLANUEVA; MARÍA L. RUIZ; MARCELO G. LUQUITA; LUIS M. VEGGI; JOSE M. PELLEGRINO; MARY VORE; VIVIANA A. CATANIA; AND ALDO D. MOTTINO

Drug Metabolism and Disposition

ASPET

Año: 2009 vol. 37 p. 1277 - 1285

0090-9556

The effect of the cholestatic estrogens ethynylestradiol (EE) and estradiol 17
-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 mol/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 M) 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. 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 mol/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 M) 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. 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 mol/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 M) 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. 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 mol/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 M) 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. 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 mol/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 M) 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. 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 mol/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 M) 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.
-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 mol/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 M) 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. 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 mol/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 M) 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. 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 mol/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 M) 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.