Abstract: | Abstract— G-3H]Lignoceric acid (tetracosanoic acid) was injected into the brains of 20-day-old rats, and the animals were killed after 8, 24, or 72 h. Various lipids were isolated from these brains, and the distribution of radioactivity was determined. The injected free acid rapidly disappeared, and the radioactivity was incorporated into varying chain-length nonhydroxy- and hydroxy saturated fatty acids of sphingolipids and phospholipids. Little radioactivity was found in unsaturated acids, sphingo-sine, and cholesterol. A time-dependent shift of the label among various fatty acids was relatively small 8 h after injection, probably because of the metabolic stability of the brain sphingolipids. In cerebrosides, the radioactivity was equally distributed between nonhydroxy and x-hydroxy fatty acids of all chain lengths. C23 and C22 fatty acids contained equal total radioactivities; C23 and C24 fatty acids contained similar specific activities. These results confirm the significant role of a-hydroxylation and 2-oxidation in the synthesis of very long-chain fatty acids in brain. In total lipid fatty acids, docosanoic acid (22:0) contained more radioactivity than its α-oxidation precursor, α-hydroxytricosanoic acid (23h:0) at all times. In sphingolipid fatty acids, the specific activity of 21:0 was always higher than that of its ct-oxidation precursor 22:0. These observations indicate that part of the 22:0 and 21:0 was derived by β-oxidation from the injected lignoceric acid or its α-oxidation product, respectively. |