Patients with chronic kidney disease (CKD) require many medications. CYP2C and CYP3A drug-metabolizing enzymes play a critical role in determining the pharmacokinetics of the majority of prescribed medications. These enzymes are transcriptionally regulated by the nuclear receptors pregnane X receptor (PXR) and hepatic nuclear factor 4α (HNF-4α). Expression of CYP2C and CYP3A is decreased in CKD; however, the mechanisms by which this occurs is unknown. We induced CKD in rats by 5/6 nephrectomy and used chromatin immunoprecipitation (ChIP) to determine nuclear receptor- and epigenetic alteration-mediated differences in the promoter region of the CYP2C and CYP3A genes. RNA polymerase II and HNF-4α binding was decreased 76 and 57% in the CYP2C11 promotor and 71 and 77% in the CYP3A2 promoter, respectively (P<0.05). ChIP also revealed a 57% decrease in PXR binding to the CYP3A2 promoter in CKD rats (P<0.05). The decrease in PXR and HNF-4α binding was accompanied by diminished histone 4 acetylation in the CYP3A2 promoter (48%) and histone 3 acetylation in the CYP2C11 (77%) and CYP3A2 (77%) promoter loci for nuclear receptor activation (P<0.05). This study suggests that decreased nuclear receptor binding and histone acetylation may contribute to the mechanism of drug-metabolizing enzyme down-regulation and altered pharmacokinetics in CKD.
Keywords: chromatin immunoprecipitation; cytochrome P450; histone modification; pharmacokinetics; uremia.
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