THE EFFECTS OF HYPERKETONEMIA ON GLUTAMATE AND GLUTAMINE METABOLISM IN DEVELOPING RAT BRAIN

Abstract

Abstract— The effect of increased exposure to ketone bodies in the developing rat brain suggest that intrauterine and postnatal hyperketonemia lead to an altered metabolism of glutamine and glutamate. It is postulated that this effect is related to the delayed development of glutaminase (l‐glutamine amido‐hydrolase EC 3.5.1.2) and glutamate dehydrogenase (l‐glutamate: NAD oxidoreductase EC 1.4.1.2).The specific activities of glutamate dehydrogenase (GDH), glutaminase and glutamine synthetase (l‐glutamate: ammonia ligase EC 6.3.1.2) in the brains of newborn rats increased during early development. A positive correlation was observed between the specific activity of glutaminase and the concentration of glutamate in the brain as well as between the concentrations of blood and brain glutamine and glutamate in both control and hyperketonemic pups. This indicates a different degree of permeability and metabolism for glutamine and glutamate in the brain during the neonatal period, as compared to adulthood.In hyperketonemic pups, glutamine and glutamate metabolism were found to differ from that in control animals. The concentrations of glutamate were higher, and glutamine lower, in both the blood and brain as compared to that in controls. The concentrations of α‐ketoglutarate were also lower in their brain. In the brains of hyperketonemic and control pups, the concentration of malate was the same. During the first 3 weeks of life the increase of spec. act. of GDH and glutaminase was found to be suppressed in the brains of hyperketonemic pups. However, the spec. act. of glutamine synthetase was similar to that of the control pups.