Oxysterol 22(R)-Hydroxycholesterol Induces the Expression of the Bile Salt Export Pump through Nuclear Receptor Farsenoid X Receptor but Not Liver X Receptor

doi:10.1124/jpet.105.097758

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Journal of Pharmacology And Experimental Therapeutics Fast Forward
First published on December 21, 2005; DOI: 10.1124/jpet.105.097758

0022-3565/06/3171-317-325$20.00
JPET 317:317-325, 2006

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GASTROINTESTINAL, HEPATIC, PULMONARY, AND RENAL

Oxysterol 22(R)-Hydroxycholesterol Induces the Expression of the Bile Salt Export Pump through Nuclear Receptor Farsenoid X Receptor but Not Liver X Receptor

Ruitang Deng, Dongfang Yang, Jian Yang, and Bingfang Yan

Department of Biological and Pharmaceutical Sciences, College of Pharmacy, University of Rhode Island, Kingston, Rhode Island

Oxysterols are intermediates in the synthesis of bile acidsand steroid hormones from cholesterol and function as ligandsfor liver X receptor (LXR). Bile salt export pump (BSEP) isresponsible for canalicular secretion of bile acids and is tightlyregulated by its substrates bile acids through nuclear receptorfarnesoid X receptor (FXR). In a microarray study using humanhepatocytes, BSEP was markedly induced not only by chenodeoxycholicacid (CDCA) but also by oxysterol 22(R)-hydroxycholesterol [22(R)-OHC].We hypothesized that the expression of BSEP was induced by oxysterolsthrough activation of LXR. To test the hypothesis, human primaryhepatocytes or hepatoma cells were treated with 22(R)-OHC, andexpression of BSEP was determined. The level of BSEP mRNA wasincreased as much as 5-fold upon oxysterol induction. In contrastto our hypothesis, the oxysterol-induced up-regulation of BSEPis mediated through FXR but not LXR. BSEP promoter activitywas markedly induced by 22(R)-OHC in the presence of FXR butnot LXRs. Mutation of the FXR element IR1 in the BSEP promotersignificantly reduced its ability to respond to oxysterol induction.To determine whether 22(R)-OHC and CDCA bind to similar structuralfeatures of FXR, site-directed mutagenesis was performed inthe FXR ligand binding domain. Mutation of residues R331 andI352 abolished activation mediated by CDCA and 22(R)-OHC. Incontrast, substitution of residues L340 and R351 differentiatedCDCA- and 22(R)-OHC-mediated activation. In conclusion, oxysterol22(R)-OHC functions as an FXR ligand to induce BSEP expressionand differs in the binding with FXR from CDCA.

Received October 26, 2005; accepted December 20, 2005.

Address correspondence to: Ruitang Deng, Department of Biological and Pharmaceutical Sciences, College of Pharmacy, University of Rhode Island, Fogarty Hall, 41 Lower College Road, Kingston, RI 02881. E-mail: dengr{at}mail.uri.edu

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