THE EFFECTS OF INTOXICATING DOSES OF ETHANOL UPON INTERMEDIARY METABOLISM IN RAT BRAIN

Abstract— The effect of acute (8-min) and prolonged (13-h) exposures to high doses of ethanol upon the intermediary metabolites of rat brain has been studied, with the use of a new freezing technique which minimizes post-mortem changes. Injection of ethanol (80 mmol/kg body wt) produced general anaesthesia within 8 min after administration. At this time there were increases in the brain contents of glucose, glucose-6-phosphate and citrate; there was no change in arterial pCO₂. Rats under ethanol anaesthesia for 13 h showed increases in brain contents of glycogen, glucose and glucose 6-phosphate; and decreases in lactate, pyruvate, α-oxoglutarate and malate. Under similar experimental conditions, arterial pCO₂, increased from 37 to 51 Torr. The changes in levels of metabolites after injection of ethanol were similar to those after administration of many volatile anaesthetic agents or elevation of brain CO₂ by other means. Although brain levels of malate and α-oxoglutarate decreased after prolonged exposure to ethanol, the mitochondrial redox state was maintained. Accordingly, the levels of glutamate and aspartate fell in accordance with the law of mass action. The maintenance of the cytoplasmic and mitochondrial redox states in the brain during ethanol intoxication was in marked contrast to the effects on the liver. We suggest that the different effects observed in brain and liver result from the action of ethanol upon the nerve cell membrane in brain, whereas the primary target in liver is alcohol dehydrogenase.