NPC1L1 and SR-BI are involved in intestinal cholesterol absorption from small-size lipid donors.

In the human intestinal content after a meal, cholesterol is dispersed in a complex mixture of emulsified droplets, vesicles, mixed micelles and precipitated material. The aim of this study was to determine the contribution of the main intestinal cholesterol transporters (NPC1L1, SR-BI) to the absorption processes, using different cholesterol-solubilizing donors. Cholesterol donors prepared with different taurocholate concentrations were added to an apical medium of differentiated TC7/Caco-2 cells. As the taurocholate concentrations increased, cholesterol donor size decreased (from 712 to 7 nm in diameter), which enhanced cholesterol absorption in a dose-dependent manner (38-fold). Two transport processes were observed: (1) absorption from large donors exhibited low-capacity transport with no noticeable transporter contribution; (2) efficient cholesterol absorption occurs from small lipid donors (<or=23 nm diameter), mainly due to NPC1L1 and SR-BI involvement. In addition, bile acids significantly increased mRNA and protein expression of NPC1L1, but not of SR-BI. In conclusion, bile acids present in the intestinal lumen and the micelles enhance intestinal cholesterol transport into the cell by two different regulatory processes: by reducing the lipid donor size, so that small-size mixed micelles can more easily access brush-border membrane transporters, and by increasing the expression level of the enterocyte NPC1L1. These mechanisms could account for the important inter-individual variations observed in cholesterol intestinal absorption.