Journal of Biological Chemistry
Volume 279, Issue 37, 10 September 2004, Pages 38379-38385
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Genes: Structure and Regulation
The Induction of Cytochrome P450 3A5 (CYP3A5) in the Human Liver and Intestine Is Mediated by the Xenobiotic Sensors Pregnane X Receptor (PXR) and Constitutively Activated Receptor (CAR)*

https://doi.org/10.1074/jbc.M404949200Get rights and content
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Induction of cytochrome P450 3A (CYP3A) by xenobiotics may lead to clinically relevant drug interactions. In contrast with other CYP3A family members, studies on the inducibility of CYP3A5 indicate conflicting results. We report the induction of CYP3A5 mRNA in 13 of 16 hepatocyte preparations exposed to rifampin. Furthermore, induction of CYP3A5 mRNA was observed in intestinal biopsies in three of eight probands following exposure to the antibiotic. The highest absolute levels of CYP3A5 transcripts were found following rifampin treatment in hepatocytes and intestines from carriers of CYP3A5*1 alleles. Elucidation of the mechanism involved in CYP3A5 induction revealed that constitutively activated receptor (CAR) and pregnane X receptor (PXR) transactivated the CYP3A5 promoter (–688 to +49) and that the transactivation was dependent on an everted repeat separated by 6 bp (ER6-dependent). Treatment with the prototypical PXR ligand rifampin led to a 2-fold induction of the CYP3A5 promoter activity. In agreement with these observations, PXR and CAR bound specifically to the ER6 motif. Hepatic expression of PXR correlated with that of CYP3A5 mRNA levels in a bank of liver samples. Taken together, studies here revealed the presence of a functional ER6 motif in the CYP3A5 promoter located –100 bp upstream from the transcription start site, suggesting that CYP3A5 is inducible by mechanisms similar to those involved in CYP3A4 induction. Enhanced expression of CYP3A5 caused by exposure to inducers may phenocopy the effects of the high expression allele CYP3A5*1. In this manner, induction of CYP3A5 may contribute to the overall importance of this P450 in drug metabolism and drug interactions.

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This work was supported by Grants Bu 1249/1-3 and WO505/2-1 from the Deutsche Forschungsgemeinschaft (Germany), by the Robert Bosch Foundation (Germany), and by Grants AA08990 and GM49511 from the National Institutes of Health (to J. R.). The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked “advertisement” in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.