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Journal of Lipid Research, Vol 36, 1092-1097, Copyright © 1995 by Lipid Research, Inc.
Y Lange, J Ye and F Strebel
Oxysterols serve as both substrates and signal molecules in the
cholesterol-utilizing pathways of mammalian cells. Their distribution and
movement within these cells, however, have not been well characterized;
therefore we have undertaken such an analysis. Radiolabeled cholesterol and
25-hydroxycholesterol were pulsed into the cell surface membranes of rat
hepatoma cells and their esterification was determined. The esterification
of both probes was stimulated by feeding cells lipoproteins, even though
lipoprotein cholesterol might be viewed as a competitor. Unlabeled
25-hydroxycholesterol, another potential competitor, also stimulated the
esterification of the cell- surface probes. Esterification of both sterols
was inhibited by a variety of amphiphilic agents. This inhibition was
reversed by unlabeled 25-hydroxycholesterol. In cells incubated at 15
degrees C the fractional rate of esterification of the oxysterol was more
than 100 times greater than that of cholesterol. Furthermore, the time
course of esterification of plasma membrane cholesterol but not that of 25-
hydroxycholesterol, was lagged. In contrast, the rate of esterification of
the two probes was similar in broken cells supplied with saturating
cholesterol. Finally, the transfer of 25-hydroxycholesterol from red blood
cells to plasma lipoproteins was approximately 2000-fold faster than that
of cholesterol. We conclude that 25-hydroxycholesterol and cholesterol are
moved between the plasma membrane and endoplasmic reticulum by a common
transport mechanism but that the oxysterol enters this pathway much more
rapidly, possibly through a passive transfer step akin to its unmediated
transfer from red cells to plasma.
ARTICLES
Movement of 25-hydroxycholesterol from the plasma membrane to the rough endoplasmic reticulum in cultured hepatoma cells
Department of Pathology, Rush Presbyterian-St. Luke's Medical Center, Chicago, IL 60612, USA.
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