对缺乏可代谢葡萄糖的代偿反应。
Compensatory reactions to a lack of metabolizable glucose.
作者信息
Himsworth R L
出版信息
J Physiol. 1968 Sep;198(2):451-65. doi: 10.1113/jphysiol.1968.sp008616.
Abstract
- Following the injection of adrenaline into rats pre-treated with thyroxine, there is a pronounced and prolonged increase in their oxygen consumption. On this basis a method is described for following increases in the rate of secretion of adrenaline in response to physiological stimuli in rats.2. Using this method the onset and the cessation of the increased rate of secretion of adrenaline during insulin induced hypoglycaemia has been found to correspond to a blood glucose concentration of approximately 40 mg/100 ml.3. 3-Methylglucose (3-O-methyl-D-glucopyranose) is shown to cause a marked and sustained increase in the blood glucose concentration.4. This action of 3-methylglucose can be accounted for by an increase in the rate of secretion of adrenaline, as it is accompanied by a rise in oxygen consumption in thyroid treated rats and is prevented by interruption of the central nervous connexions of the adrenal medulla.5. These findings can be explained by 3-methylglucose's acting upon the receptor which reacts to insulin hypoglycaemia by bringing about the secretion of adrenaline. It is shown that the effective stimulus to this receptor is not a low blood glucose concentration. The stimulus is possibly a depressed rate of utilization of glucose by the receptor tissue.
摘要
给预先用甲状腺素处理过的大鼠注射肾上腺素后,其耗氧量会显著且持续增加。在此基础上,描述了一种追踪大鼠肾上腺素分泌速率因生理刺激而增加的方法。
使用该方法发现,胰岛素诱导的低血糖期间肾上腺素分泌速率增加的起始和停止与血糖浓度约为40mg/100ml相对应。
3-甲基葡萄糖(3-O-甲基-D-吡喃葡萄糖)可使血糖浓度显著且持续升高。
3-甲基葡萄糖的这种作用可归因于肾上腺素分泌速率的增加,因为它伴随着甲状腺处理过的大鼠耗氧量的增加,并且通过中断肾上腺髓质的中枢神经联系而被阻止。
这些发现可以解释为3-甲基葡萄糖作用于对胰岛素低血糖有反应的受体,从而引起肾上腺素的分泌。结果表明,对该受体的有效刺激不是低血糖浓度。刺激可能是受体组织葡萄糖利用速率降低。
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