Effect of Polyunsaturated Fatty Acids on Fetal Mouse Brain Cells in Culture in a Chemically Defined Medium

Abstract: The biochemical and morphological effects of polyunsaturated fatty acids on fetal brain cells grown in a chemically defined medium were studied. Fetal brain cells were dissociated from mouse cerebral hemispheres taken on the 16th day of gestation. After cells had grown in chemically defined medium for 8 days, the proportion of polyunsaturated fatty acids of cultured cells was only one‐half of that observed at day 0 and about 1.5 times less than that of cells grown in serum‐supplemented medium. Fatty acid 20:3(n‐9) was present in cultured cells grown in either chemically defined or serum‐supplemented medium, demonstrating the deficiency of essential fatty acids. The reduced amount of polyunsaturated fatty acids in cells grown in the chemically defined medium was balanced by an increase in monounsaturated fatty acids. The saturated fatty acids were not affected. When added at the seeding time, linoleic, linolenic, arachidonic, or docosahexaenoic acid stimulated the proliferation of small dense cells. Besides, we demonstrate that each of the four fatty acids studied was incorporated into phospholipids. Adding fatty acids of the n‐6 series increased the content of n‐6 fatty acids in the cells, but also provoked an increase in the n‐3 fatty acids. Among several combinations of fatty acids, only 20:4 and 22:6, when added to the culture in a ratio of 2:1, restored a fatty acid profile similar to controls (i.e. in vivo tissue taken at postnatal day 5).