ABCC3

Abstract: Pregnane X receptor (PXR) and constitutive androstane receptor (CAR) are key regulators of xenobiotic-inducible cytochrome P450 gene expression. Whereas much is known about their role in regulating drug metabolism, little is known regarding their role in regulating drug transport in vivo. Wild-type mice and mice lacking PXR (PXR-KO) were used to examine the inducible expression of two drug transporter genes, Oatp2 (Slc21a5) andMrp3 (Abcc3), in liver following treatment with selective PXR and CAR activators. Selective activation of PXR or CAR induced Oatp2 and Mrp3expression in wild-type mice but not in PXR-KO mice. Basal expression levels of Oatp2 and Mrp3 gene were significantly higher in PXR-KO mice when compared with wild-type mice. Additionally, phenobarbital (PB)-inducible Oatp2 andMrp3 gene expression was significantly increased in the PXR-KO mice when compared with wild-type PB-treated mice. We also examined the effect of PXR ablation on PB-inducible hepatic CYP3A activity in vivo. Microsomes isolated from PB-treated PXR-KO mice exhibited a significantly elevated rate of testosterone 6β-hydroxylation when compared with microsomes isolated from wild-type PB-treated mice. PB treatment produced significantly increased levels of hepatomegaly in PXR-KO mice when compared with wild-type PB-treated mice. Taken together, these results suggest that nonliganded PXR plays a net negative role in coregulating shared PXR/CAR-target gene expression in vivo and extend the hypothesis that PXR and CAR coregulate not only drug metabolism but also drug transport.

Abstract: Background/Aims: Treatment of hepatocellular carcinoma (HCC) is hampered by resistance to chemotherapy, which might be mediated by multidrug resistance P-glycoproteins (MDR P-gps) and MDR-associated proteins (MRPs). The effectiveness of cytostatics could be further impeded by reduced hepatocellular drug uptake into HCCs. Therefore, we aimed to determine P-gp, MRP and organic anion transporting protein OATP2 (SLC21A6) expression in HCC. Furthermore, we investigated expression of the major bile salt uptake system Na+/taurocholate cotransporter NTCP (SLC10A1), since bile salt-coupled chemotherapeutics were proposed to increase therapeutic drug enrichment in HCC. Material/Methods: mRNA and protein expression and tissue distribution of P-gps, MRPs, OATP2 and NTCP were assessed in HCC and peritumorous non-neoplastic tissue by reverse transcription polymerase chain reaction, Western blotting and immunohistochemistry, respectively. Results: Expression of P-gps (multidrug export pump MDR1 (ABCB1), phospholipid flippase MDR3 (ABCB4), sister of P-glycoprotein SPGP (ABCB11)) and basolateral MRP homologue MRP3 (ABCC3) showed a trend for decreased levels in HCC but was highly variable among individual tumors. In contrast, canalicular conjugate export pump MRP2 (ABCC2) expression was generally maintained or even showed a trend towards increased levels. NTCP and OATP2 expression was markedly reduced in most HCCs (P<0.05). Expression of the genuine drug transporter, the concentrative nucleoside transporter (CNT1), was highly variable and showed a trend for reduced levels in HCC. Summary/Conclusions: MRP2 seems to be the major candidate transporter involved in chemoresistance and reduced expression of OATP2 may further contribute to low drug accumulation in HCCs. Overexpression of drug exporters is not a general feature of HCC but could account for chemoresistance of individual cases. Since expression of uptake systems is generally reduced in HCC, bile salt-coupled therapeutics may not represent a suitable strategy to overcome insufficient drug enrichment.

Abstract: AimsTo determine the genetic variability of multidrug resistance protein 3 (MRP3).MethodsGenomic DNA samples from 103 Caucasians were systematically screened for genetic variations to find a potential relationship with hepatic MRP3 expression. Sequencing comprised all 31 exons, approximately 100 bp