Cholesterol Modulates Human Intestinal Sodium-Dependent Bile Acid Transporter

doi:10.1152/ajpgi.00379.2004

Cholesterol Modulates Human Intestinal Sodium-Dependent Bile Acid Transporter

Waddah A. Alrefai¹^*, Zaheer Sarwar¹, Sangeeta Tyagi¹, Seema Saksena¹, Pradeep K. Dudeja¹, and Ravinder K. Gill¹

¹ Section of Digestive Diseases and Nutrition, Department of Medicine, University of Illinois at Chicago, Chicago, IL, USA

^* To whom correspondence should be addressed. E-mail: walrefai{at}uic.edu.

Bile acids are efficiently absorbed from the intestinal lumenvia the ileal Apical Sodium-Dependent Bile Acid Transporter(ASBT). ASBT function is essential for maintenance of cholesterolhomeostasis in the body. The molecular mechanisms of the directeffect of cholesterol on human ASBT function and expressionare not entirely understood. The present studies were undertakento establish a suitable in vitro experimental model to studyhuman ASBT function and its regulation by cholesterol. Luminalmembrane bile acid transport was evaluated by the measurementof sodiumdependent ³H-taurocholic (TC) uptake in human intestinalCaco2 cell monolayers. The relative abundance of hASBT mRNAwas determined by real time PCR. Transient transfection andluciferase assay techniques were employed to assess hASBT promoter activity.Caco2 cell line was found to represent a suitable model to studyhASBT function and regulation. 25-hydroxycholesterol (25-HCH,2.5 µg/ml for 24h) significantly inhibited Na⁺-dependent³H-TC uptake in Caco2 cells. This inhibition was associatedwith a 50 % decrease in the V_max of the transporter with nosignificant changes in the apparent K_m. The inhibition in hASBTactivity was associated with reduction in both the level ofhASBT mRNA and its promoter activity. Our data show the inhibition ofhASBT function and expression by 25-hydroxycholesterol in Caco2cells. These data provide novel evidence for the direct regulationof human ASBT function by cholesterol and suggest that thisphenomenon may play a central role in cholesterol homeostasis.

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