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J Biol Chem, Vol. 273, Issue 47, 31621-31628, November 20, 1998
From the Atlantic Research Centre and Departments of Pediatrics and
Biochemistry, Dalhousie University,
Halifax, Nova Scotia B3H 4H7, Canada
The deposition of de novo synthesized
and lipoprotein-derived cholesterol at the plasma membrane and
transport to the endoplasmic reticulum is dependent on sphingomyelin
(SM) content. Here we show that hydrolysis of plasma membrane SM in
Chinese hamster ovary cells by exogenous bacterial sphingomyelinase
resulted in enhanced cholesterol esterification at the endoplasmic
reticulum and rapid dephosphorylation of the oxysterol-binding protein
(OSBP), a cytosolic/Golgi receptor for oxysterols such as
25-hydroxycholesterol. After sphingomyelinase treatment, restoration of
OSBP phosphorylation closely paralleled resynthesis of SM and
down-regulation of cholesterol ester synthesis. SM hydrolysis activated
an okadaic acid-sensitive phosphatase that was not stimulated in
Chinese hamster ovary cells by short chain ceramides. Agents that
specifically blocked sphingomyelinase-mediated delivery of cholesterol
to acyl-CoA:cholesterol acyltransferase (U18666A) or promoted
cholesterol efflux to the medium (cyclodextrin) did not inhibit OSBP
dephosphorylation. SM hydrolysis also promoted OSBP translocation from
a vesicular compartment to the Golgi apparatus. Cyclodextrin and
U18666A also caused OSBP translocation to the Golgi apparatus,
suggesting that OSBP movement is coupled to changes in the cholesterol
content of the plasma membrane or Golgi apparatus. These results
identify OSBP as a potential target of SM turnover and cholesterol
mobilization at the plasma membrane and/or Golgi apparatus.
Differential Effects of Sphingomyelin Hydrolysis and
Cholesterol Transport on Oxysterol-binding Protein Phosphorylation and
Golgi Localization
Copyright © 1998 by The American Society for Biochemistry and Molecular Biology, Inc.
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