Abstract
Several studies are presented which indicate that composition of cell lipid is regulated by interaction between intracellular metabolism and lipid transport processes. When the fatty acid composition of cells cultured in essential fatty acid deficient conditions was studied, activation of synthesis of unusual polyun-saturated fatty acids was observed for a number of cell lines. In addition cells contained persistent residual amounts of linoleic acid, presumably owing to efficient scavenging mechanisms. The source of cell lipids was studied in both chemically defined and serum-supplemented media. In the absence of exogenous lipid, cells synthesize lipids from simple precursors, a process which is inhibited by adding serum. When serum lipid is present, cells preferentially utilize fatty acids as a source of nonsterol lipid. These are subsequently esterified intracellularly to make glycerides and phospholipids. When triglyceride is utilized as a source of cell lipid, it is first hydrolyzed before being taken up. By use of a nonhydrolyzable cholesterol ester analog, it is confirmed that both free and ester cholesterol are taken up and excreted by cells. Intracellular cholesterol content is thus regulated by rates of uptake, hydrolysis and excretion as well as by biosynthesis.
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Bailey, J.M., Howard, B.V., Dunbar, L.M. et al. Control of lipid metabolism in cultured cells. Lipids 7, 125–134 (1972). https://doi.org/10.1007/BF02532600
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DOI: https://doi.org/10.1007/BF02532600