LEUCINE OXIDATION IN BRAIN SLICES AND NERVE ENDINGS 1

—It is generally believed that leucine serves primarily as a precursor for protein synthesis in the central nervous system. However, leucine is also oxidized to CO 2 in brain. The present investigation compares leucine oxidation and incorporation into protein in brain slices and synaptosomes. In brain slices from adult rats, these processes were linear for 90min and 14 CO 2 production from 0·1 m m ‐ l ‐[l‐ 14 C]leucine was 23 times more rapid than incorporation into protein. The rate of oxidation increased further with greater leucine concentrations. Experiments with l ‐[U‐ 14 C]leucine suggested that all of the carbons from leucine were oxidized to CO 2 with very little incorporation into lipid. Oxidation of leucine also occurred in synaptosomes. In slices, leucine oxidation and incorporation into protein were inhibited by removal of glucose or Na + , or addition of ouabain. In synaptosomes, replacement of Na + by choline also reduced leucine oxidation; and this effect did not appear to be due to inhibition of leucine transport. The rate of leucine oxidation did not change in brain slices prepared from fasted animals. Fasting, however, reduced the incorporation of leucine into protein in brain slices prepared from young but not from adult rats. These findings indicate that oxidation is the major metabolic fate of leucine in brain of fed and fasted animals.