DEVELOPMENTAL CHANGES IN GLYCOLYSIS IN RAT CEREBRAL CORTEX

— The ATP concentration in infant rat cerebral cortex slices which were incubated aerobically with glucose (5 m m ) as substrate was much higher than in those from the adult. The higher ATP concentration in slices from young rat was also obtained when they were incubated aerobically with pyruvate (10 m m ), dl ‐lactate (20 m m ) and dl ‐3‐nydroxybutyrate (20 m m ) However, when the slices were incubated anaerobically with glucose, the ATP concentration was very low. Thus, the formation of ATP in the slices from the young rat was thought to be mainly due to their oxidative metabolism, as in those from the adult. The amounts of glycolytic key enzymes in rat cerebral cortex (hexokinase. phosphofructokinase and pyruvate kinase) increased with age. Glycolysis was actually shown to be less active in the cerebral slices from young rats than from the adult. In addition it is known that the tricarboxylic acid cycle enzymes in rat cerebrum also increase with age. Consequently, the activity with respect to ATP formation must be lower in the cerebral cortex slices from young rats than from the adult. The fact that ATP was nevertheless higher in the slices from young rats may be explained by a lower rate of degradation. Developmental increases in the amounts of Na + ‐K + ‐ATPase and Mg 2+ ‐ATPase in rat cerebral cortex were greater than those of the glycolytic key enzymes. These are discussed in relation to the observation that the rate of aerobic glycolysis in slices from cerebral cortex of young rats was not increased by d ‐glutamate (5 m m ) and high potassium (50 m m ).