Relation of Cellular Phospholipid Composition to Oligodendroglial Differentiation in C‐6 Glial Cells

The relation of the polar head group composition of cellular phospholipids to a biochemical expression of oligodendroglial differentiation was studied in cultured C‐6 glial cells. Induction of the oligodendroglial enzyme, 2′,3′‐cyclic nucleotide 3′‐phosphohydrolase (CNP), was determined after alteration of the polar head group composition of phospholipids by exposure of the cells to choline analogues, especially N, N′ ‐dimethyl‐ethanolamine. To accomplish the phospholipid alteration, cells were grown in the presence of the analogue in medium free of exogenous lipid, i.e., first for 24 h in 10% delipidated serum and then for 48 h in serum‐free medium. The 48‐h exposure to serum‐free medium resulted in untreated C‐6 cells in a several fold increase in CNP activity, but in cells treated with 2.5 mM N, N′ ‐dimethyl‐ethanolamine, total inhibition of this induction was observed. A graded, concentration‐dependent inhibitory effect of the analogue on the induction of CNP was defined. The effect of the analogue was relatively specific, e.g., the activity of another plasma membrane enzyme of C‐6 cells, (Na + + K + )‐activated ATPase, was not affected. Morever, there was no evidence of a toxic effect of the analogue; thus, total protein synthesis and cell growth were not altered, and the induction of CNP in serum‐free medium recurred after removal of the analogue. N, N′ ‐Dimethylethanolamine was shown to be incorporated into cellular phospholipids, primarily at the expense of phosphatidylcholine. The data define an important role for the polar head group composition of membrane phospholipids in oligodendroglial differentiation in this model system.