Genetic factors at the enterocyte level account for variations in intestinal cholesterol absorption efficiency among inbred strains of mice

D. Q.H. Wang, B. Paigen, M. C. Carey

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64 Scopus citations

Abstract

Interindividual and interstrain variations in cholesterol absorption efficiency occur in humans and animals. We investigated physiological biliary and small intestinal factors that might determine variations in cholesterol absorption efficiency among inbred mouse strains. We found that there were significant differences in cholesterol absorption efficiency measured by plasma, fecal, and lymphatic methods: <25% in AKR/J, C3H/J, and A/J strains; 25-30% in SJL/J, DBA/2J, BALB/cJ, SWR/J, and SM/J strains; and 31-40% in C57L/J, C57BL/6J, FVB/J, and 129/SvJ strains. In (AKR×C57L)F1 mice, the cholesterol absorption efficiency (31 ± 6%) mimicked that of the C57L parent (37 ± 5%) and was significantly higher than in AKR mice (24 ± 4%). Although biliary bile salt compositions and small intestinal transit times were similar, C57L mice displayed significantly greater bile salt secretion rates and pool sizes than AKR mice. In examining lymphatic cholesterol transport in the setting of a chronic biliary fistula, C57L mice displayed significantly higher cholesterol absorption rates compared with AKR mice. Because biliary and intestinal transit factors were accounted for, we conclude that genetic variations at the enterocyte level determine differences in murine cholesterol absorption efficiency, with high cholesterol absorption likely to be a dominant trait. This study provides baseline information for identifying candidate genes that regulate intestinal cholesterol absorption at the cellular level.

Original languageEnglish (US)
Pages (from-to)1820-1830
Number of pages11
JournalJournal of Lipid Research
Volume42
Issue number11
Publication statusPublished - Dec 17 2001
Externally publishedYes

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Keywords

  • Bile flow
  • Bile salt
  • Chylomicron
  • Lymph
  • Micelle
  • Nutrition
  • Phospholipid
  • Sitostanol

ASJC Scopus subject areas

  • Biochemistry
  • Endocrinology
  • Cell Biology

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