THE EFFECTS OF ALTERED ENDOCRINE STATES AND OF ETHER ANAESTHESIA ON MOUSE BRAIN 1

— The effects of ether anaesthesia on metabolites of mouse brain in altered endocrine states has been examined. Alloxan diabetic mice, with elevated levels of blood and brain glucose, exhibited changes in brain metabolites after ether anaesthesia that were comparable to those seen in normal animals. Sympathectomized and/or adrenalectomized mice had decreased levels of brain glucose. The percentage elevation of glucose in the brains of these animals under ether anaesthesia approximated to normal values, although the absolute cerebral levels were lower. Increases in glycogen in the brains of these animals were somewhat diminished. In none of the altered endocrine states were the changes in brain metabolites following ether anaesthesia eliminated. The activity of UDPglucose‐glycogen glucosyltransferase (UDPglucose: glycogen α‐4‐glucosyltransferasee, EC 2.4.1.11) in the mouse brain was measured in the absence and in the presence of glucose‐6‐P. Neither the total activity nor the percentage of the I form (measured in the absence of glucose‐6‐P) was altered by anaesthesia or by the endocrine state of the animal. The Michaelis constants with UDPglucose as substrate for the total and I forms were 0·36 mM and 1·0 mM, respectively. Considerable UDPglucose‐glycogen glucosyltransferase activity was observed in the absence of added glycogen primer. The observed increase in activity in the presence of added glucose‐6‐P was greater than would have been anticipated if the hexose phosphate were acting at only one site.