Harold W. Cook scite author profile

Oxysterol-binding protein (OSBP) is a high-affinity receptor for a variety of oxysterols, such as 25-hydroxycholesterol, that down-regulate cholesterol synthesis and stimulate cholesterol esterification. To examine a potential role for OSBP in regulating cholesterol metabolism, we stably overexpressed this protein in Chinese-hamster ovary (CHO)-K1 cells. Compared with mock-transfected controls, several cell lines overexpressing wild-type OSBP (CHO-OSBP) displayed a 50% decrease in cholesteryl ester synthesis when cultured in medium with delipidated serum, 25-hydroxycholesterol or low-density lipoprotein (LDL). CHO-OSBP cells showed a 40-60% decrease in acyl-CoA:cholesterol acyltransferase activity and mRNA, a 50% elevation in mRNA for three sterol-regulated genes [LDL receptor, 3-hydroxy-3-methylgluraryl (HMG)-CoA reductase and HMG-CoA synthase], and an 80% increase in [14C]acetate incorporation into cholesterol. CHO-K1 cells overexpressing two OSBP mutants with a complete or N-terminal deletion of the pleckstrin homology (PH) domain had cholesterol esterification and synthesis rates that were similar to those shown by mock-transfected controls. Unlike wild-type OSBP, both PH domain mutants displayed diffuse cytoplasmic immunofluorescence staining and did not translocate to the Golgi apparatus in the presence of 25-hydroxycholesterol. CHO-K1 cells overexpressing OSBP have pronounced alterations in cholesterol esterification and synthesis, indicating a potential role for this receptor in cholesterol homoeostasis. The phenotype observed in cells overexpressing OSBP is dependent on the PH domain, which appears to be necessary for ligand-dependent localization of OSBP to the Golgi apparatus.

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Differential Effects of Sphingomyelin Hydrolysis and Cholesterol Transport on Oxysterol-binding Protein Phosphorylation and Golgi Localization

Ridgway

Lagace

Cook

et al. 1998

Journal of Biological Chemistry

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The deposition of de novo synthesized and lipoproteinderived 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.Studies in cultured cell models have identified three organelles that figure prominently in cholesterol trafficking: the ER, 1 the major site for cholesterol synthesis, regulation, and esterification; the plasma membrane, a prominent storage site for unesterified cholesterol; and lysosomes, where lipoproteinderived cholesterol is liberated (reviewed in Ref.

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The MARCKS family of phospholipid binding proteins: regulation of phospholipase D and other cellular components

Sundaram¹,

Cook²,

Byers³

2004

Biochem. Cell Biol.

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Myristoylated alanine-rich C kinase substrate (MARCKS) and MARCKS-related protein (MRP) are essential proteins that are implicated in coordination of membrane-cytoskeletal signalling events, such as cell adhesion, migration, secretion, and phagocytosis in a variety of cell types. The most prominent structural feature of MARCKS and MRP is a central basic effector domain (ED) that binds F-actin, Ca2+-calmodulin, and acidic phospholipids; phosphorylation of key serine residues within the ED by protein kinase C (PKC) prevents the above interactions. While the precise roles of MARCKS and MRP have not been established, recent attention has focussed on the high affinity of the MARCKS ED for phosphatidylinositol 4,5-bisphosphate (PIP2), and a model has emerged in which calmodulin- or PKC-mediated regulation of these proteins at specific membrane sites could in turn control spatial availability of PIP2. The present review summarizes recent progress in this area and discusses how the above model might explain a role for MARCKS and MRP in activation of phospholipase D and other PIP2-dependent cellular processes.

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Chapter 5 Fatty acid desaturation and chain elongation in eucaryotes

Cook

1991

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Differences in the metabolism of inositol and phosphoinositides by cultured cells of neuronal and glial origin

Glanville

Byers

Cook

et al. 1989

Biochimica et Biophysica Acta (BBA) - Lipids and Lipid Metaboli

111

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Prostaglandin biosynthesis can be triggered by lipid peroxides

Hemler

Cook

Lands

1979

Archives of Biochemistry and Biophysics

334

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Studies of ferriheme cyclooxygenase, using two different assay systems, show that a variety of peroxides can trigger a rapid acceleration of cyclooxygenase activity to produce prostaglandins. Lipid hydroperoxides formed by lipoxygenase were the most potent activators tested, followed by prostaglandin Gz, which was slightly less potent. Peroxides nonspecifically generated during arachidonate autoxidation were as potent as the enzymatically formed lipid peroxides. These findings have important implications for cell function since any process which generates peroxides may activate the cyclooxygenase. Thus the balance between formation and removal of cellular lipid peroxides sets a peroxide tone that can regulate the rate of prostaglandin formation in cells.

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IN VITRO FORMATION OF POLYUNSATURATED FATTY ACIDS BY DESATURATION IN RAT BRAIN: SOME PROPERTIES OF THE ENZYMES IN DEVELOPING BRAIN AND COMPARISONS WITH LIVER¹

Cook

1978

Journal of Neurochemistry

123

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Abstract— In vitro desaturation of [1‐C14]linolenic, linoleic, oleic, and icosatrienoic acids was determined using homogenates and subcellular fractions of developing rat brain and liver. Linolenic, linoleic, and oleic acids were desaturated in the δ6‐position and activity was optimal in the presence of CoA, ATP, MgCl2, and NADH in a citrate‐phosphate buffer at pH 6.0. Icosatrienoic acid was desaturated in the δ5‐position with a much broader pH optimum. The unstable desaturation systems of brain were protected by reduced glutathione and niacinamide and markedly inhibited by dithiothreitol, p‐chloromercuribenzoate, sodium cyanide or bathophenanthroline sulfonate. With brain homogenate of neonatal rats, the relative rates of desaturation of these substrates were 18:3(n ‐ 3) > 18:2(n ‐ 6) > 20:3(n ‐ 6) > 18:l (n ‐ 9). Specific activity of brain enzymes was greatest in neonatal rats with fluctuations in activity between 3 and 6 days of age. During this period, liver enzyme appeared to alter in a reciprocal manner. Total desaturation capacity of brain was maximal and fairly constant between 4 and 20 days of age, whereas liver activity increased dramatically after weaning. The activity of crude microsomal preparations from neonatal brain, like that of liver microsomes, was stimulated by a heat‐labile component of the cytosolic fraction. These results demonstrate that brain has a high capacity for desaturation of the essential fatty acids during crucial stages of brain development when liver activity is relatively low.

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Harold W. Cook

Fatty acid desaturation and chain elongation in eukaryotes

Altered regulation of cholesterol and cholesteryl ester synthesis in Chinese-hamster ovary cells overexpressing the oxysterol-binding protein is dependent on the pleckstrin homology domain

Differential Effects of Sphingomyelin Hydrolysis and Cholesterol Transport on Oxysterol-binding Protein Phosphorylation and Golgi Localization

The MARCKS family of phospholipid binding proteins: regulation of phospholipase D and other cellular components

Chapter 5 Fatty acid desaturation and chain elongation in eucaryotes

Differences in the metabolism of inositol and phosphoinositides by cultured cells of neuronal and glial origin

Prostaglandin biosynthesis can be triggered by lipid peroxides

IN VITRO FORMATION OF POLYUNSATURATED FATTY ACIDS BY DESATURATION IN RAT BRAIN: SOME PROPERTIES OF THE ENZYMES IN DEVELOPING BRAIN AND COMPARISONS WITH LIVER¹

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Harold W. Cook

Fatty acid desaturation and chain elongation in eukaryotes

Altered regulation of cholesterol and cholesteryl ester synthesis in Chinese-hamster ovary cells overexpressing the oxysterol-binding protein is dependent on the pleckstrin homology domain

Differential Effects of Sphingomyelin Hydrolysis and Cholesterol Transport on Oxysterol-binding Protein Phosphorylation and Golgi Localization

The MARCKS family of phospholipid binding proteins: regulation of phospholipase D and other cellular components

Chapter 5 Fatty acid desaturation and chain elongation in eucaryotes

Differences in the metabolism of inositol and phosphoinositides by cultured cells of neuronal and glial origin

Prostaglandin biosynthesis can be triggered by lipid peroxides

IN VITRO FORMATION OF POLYUNSATURATED FATTY ACIDS BY DESATURATION IN RAT BRAIN: SOME PROPERTIES OF THE ENZYMES IN DEVELOPING BRAIN AND COMPARISONS WITH LIVER1

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IN VITRO FORMATION OF POLYUNSATURATED FATTY ACIDS BY DESATURATION IN RAT BRAIN: SOME PROPERTIES OF THE ENZYMES IN DEVELOPING BRAIN AND COMPARISONS WITH LIVER¹