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Journal of Lipid Research, Vol 31, 2019-2027, Copyright © 1990 by Lipid Research, Inc.
ML Overturf, SA Smith, AM Gotto Jr, JD Morrisett, T Tewson, J Poorman and DS Loose- Mitchell
The New Zealand white (NZW) rabbit fed a 0.1% cholesterol-enriched diet
(CD) typically responds (normoresponsive, NR) by quickly developing
hypercholesterolemia. To study the underlying mechanisms responsible for
the widespread phenomenon of inter-individual variability of response to
dietary cholesterol, a unique hypercholesterolemia- resistant (RT) rabbit
model was developed. These animals were utilized to investigate selected
potential mechanisms that might enable the RT animal to compensate for
dietary cholesterol overload. When rabbits were fed the low-cholesterol
stock diet, there was no significant difference in the plasma cholesterol
concentrations of the NR and the RT animals. However, a significant rise
was observed in the NR rabbits within 1 month of their being placed on the
cholesterol-enriched diet; the plasma cholesterol concentration of the RT
animals was not affected. During consumption of the cholesterol diet the
cholesterol absorption rate was somewhat greater in the NR rabbits (P less
than 0.05), whereas intestinal transit times and the fecal excretion of
neutral steroids were substantially the same in both groups. In contrast,
the fecal bile acid excretion of the RT animals was more than twice as
great (P less than 0.0001) as that of the NR animals. We conclude that the
response to dietary cholesterol is a heritable trait in these rabbits and
that, although less dietary cholesterol was absorbed by the RT animals, it
appears that a major mechanism controlling plasma cholesterol levels
involves the rate of conversion of cholesterol to bile acids and their
subsequent excretion.
ARTICLES
Dietary cholesterol absorption, and sterol and bile acid excretion in hypercholesterolemia-resistant white rabbits
Department of Medicine, University of Texas Medical School, Houston 77030.
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