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Publication : The ileal lipid binding protein is required for efficient absorption and transport of bile acids in the distal portion of the murine small intestine.

First Author  Praslickova D Year  2012
Journal  PLoS One Volume  7
Issue  12 Pages  e50810
PubMed ID  23251388 Mgi Jnum  J:195544
Mgi Id  MGI:5484791 Doi  10.1371/journal.pone.0050810
Citation  Praslickova D, et al. (2012) The ileal lipid binding protein is required for efficient absorption and transport of bile acids in the distal portion of the murine small intestine. PLoS One 7(12):e50810
abstractText  The ileal lipid binding protein (ilbp) is a cytoplasmic protein that binds bile acids with high affinity. However evidence demonstrating the role of this protein in bile acid transport and homeostasis is missing. We created a mouse strain lacking ilbp (Fabp6(-/-) mice) and assessed the impact of ilbp deficiency on bile acid homeostasis and transport in vivo. Elimination of ilbp increased fecal bile acid excretion (54.2%, P<0.05) in female but not male Fabp6(-/-) mice. The activity of cholesterol 7alpha-hydroxylase (cyp7a1), the rate-controlling enzyme of the classical bile acid biosynthetic pathway, was significantly increased in female (63.5%, P<0.05) but not in male Fabp6(-/-) mice. The amount of [(3)H]taurocholic acid (TCA) excreted by 24 h after oral administration was 102% (P<0.025) higher for female Fabp6(-/-) mice whereas it was 57.3% (P<0.01) lower for male Fabp6(-/-) mice, compared to wild-type mice. The retained fraction of the [(3)H]TCA localized in the small and large intestines was increased by 22% (P<0.02) and decreased by 62.7% (P<0.01), respectively, in male Fabp6(-/-) mice relative wild-type mice, whereas no changes were seen in female Fabp6(-/-) mice. Mucosal to serosal bile acid transport using everted distal gut sacs was decreased by 74% (P<0.03) in both sexes of Fabp6(-/-) mice as compared to wild-type mice. The results demonstrate that ilbp is involved in the apical to basolateral transport of bile acids in ileal enterocytes, and is vital for the maintenance of bile acid homeostasis in the enterohepatic circulation (EHC) in mice.
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