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Journal of Lipid Research, Vol 37, 1915-1923, Copyright © 1996 by Lipid Research, Inc.
RE Morton and JS Parks
Previous studies have shown that lipid transfer protein (LTP) activity is
strongly temperature dependent, demonstrating a dramatic rise in activity
near 37 degrees C. We have investigated the origin of this rapid rise in
LTP activity. LTP-mediated transfers of radiolabeled cholesteryl ester (CE)
from LDL to HDL, HDL to LDL, LDL to biotin-LDL, HDL to biotin-HDL, and
between liposomes were determined as a function of assay temperature. Only
assays containing LDL demonstrated this rapid rise in CE transfer activity.
In contrast, TG transfer was almost linear with assay temperature. As human
LDL CE undergoes a thermal phase transition near 37 degrees C, we
investigated whether the rapid rise in CE transfer was dependent on this
transition. Monkey LDL were isolated from animals consuming diets
containing cholesterol and enriched in saturated, monounsaturated, or
polyunsaturated fatty acids. With these LDL as substrate, the CE transfer
between 21 degrees and 49 degrees C could be described by two straight
lines, the intersection of which defined the inflection temperature. Among
eight LDL samples, the inflection temperature was highly correlated with
the CE phase transition determined by differential scanning calorimetry (r2
= 0.86). Both calorimetry and CE transfer activity inflection values were
correlated with the saturated + monoene/polyene ratio of the LDL
cholesteryl esters (r2 = 0.733 and 0.612, respectively). For LDL with
inflection temperatures below 37 degrees C, CE transfer activity at 37
degrees C increased 10-14% for each 1 degree C decrease in the inflection
temperature. We conclude that LTP activity is markedly affected by the
physical state of the core CE. Diets rich in saturated fatty acids may
result in LDL that are poor LTP substrates, which may hinder LTP's ability
to promote normal lipoprotein remodeling.
ARTICLES
Plasma cholesteryl ester transfer activity is modulated by the phase transition of the lipoprotein core
Department of Cell Biology, Cleveland Clinic Foundation, OH 44195, USA.
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