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Journal of Lipid Research, Vol 27, 637-644, Copyright © 1986 by Lipid Research, Inc.

ARTICLES

Lack of relationship in humans of the parameters of body cholesterol metabolism with plasma levels of subfractions of HDL or LDL, or with apoE isoform phenotype

RH Palmer, AV Nichols, RB Dell, R Ramakrishnan, FT Lindgren, EL Gong, CB Blum and DS Goodman

The factors involved in regulating parameters of whole body cholesterol metabolism in humans have been explored in a series of investigations. Several physiological variables have been identified (weight, excess weight, plasma cholesterol, and age) that can predict 53-76% of the variation in production rate (PR) and in the sizes of the rapidly exchanging pool of body cholesterol (M1) and of the minimum estimates of the slowly exchanging pool of body cholesterol (M3min) and of total body cholesterol (Mtotmin). Surprisingly, measurements of the plasma levels of HDL cholesterol and of the major HDL apolipoproteins (apoA-I, A-II, and E) did not provide additional information useful in predicting parameters of whole body cholesterol metabolism. A study was therefore conducted to investigate possible relationships of the plasma levels of subfractions of lipoproteins, determined by analytic ultracentrifugation, and of apoprotein E phenotype, with the parameters of whole body cholesterol metabolism. Ultracentrifugal analysis of plasma lipoprotein subfractions was performed at the Donner Laboratory in 49 subjects; all of these subjects were currently undergoing whole body cholesterol turnover studies or had previously had such studies and were in a similar metabolic state as judged by plasma lipid and lipoprotein values. Apoprotein E phenotyping was carried out in 71 subjects. Differences in model parameters were sought among subjects with various apoprotein E phenotypes. Ultracentrifugal LDL subfractions Sof 0-2 (the region of LPa), Sof 0-7 (smaller LDL), Sof 7-12 (larger LDL), Sof 12-20 (IDL), and ultracentrifugal HDL subfractions Fo1.20 0- 1.5 (smaller HDL3), Fo1.20 2-9 (larger HDL3 plus HDL2), and Fo1.20 5-9 (larger HDL2 or HDL2b) were examined for correlations with each other and with parameters of whole body cholesterol metabolism.
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K. von Bergmann, D. Lutjohann, B. Lindenthal, and A. Steinmetz
Efficiency of intestinal cholesterol absorption in humans is not related to apoE phenotype
J. Lipid Res., January 1, 2003; 44(1): 193 - 197.
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