大鼠肝脏中糖异生的发展。胰高血糖素和乙醚的作用。
The development of gluconeogenesis in rat liver. Effects of glucagon and ether.
作者信息
Philippidis H, Ballard F J
出版信息
Biochem J. 1970 Nov;120(2):385-92. doi: 10.1042/bj1200385.
Abstract
- Administration of glucagon to foetal rats produced a 10-15-fold increase in hepatic phosphoenolpyruvate carboxykinase activity together with a similar increase in the overall pathway of pyruvate conversion into glycogen in liver slices. 2. Glucagon was without effect on gluconeogenesis in vivo, which remained at approx. 0.1% of the incorporation as measured in newborn animals. 3. The apparent discrepancy between these results was due to the ether anaesthesia that was required for experimentation in vivo. Under conditions when minimal ether was used, the rates of labelling of glycogen from [3-(14)C]pyruvate in vivo were increased 10-20-fold and there was an additional stimulus by glucagon. 4. Ether anaesthesia produced a more reduced redox state of the foetal liver cytosol and lowered the ATP/ADP concentration ratio. 5. It is proposed that these effects are significant in the limitation of gluconeogenesis in the foetal rat liver, so that only with high phosphoenolpyruvate carboxykinase activity, high ATP concentration and a relatively oxidized cytosol redox state will a functional gluconeogenic pathway be present.
摘要
- 给胎鼠注射胰高血糖素后,肝脏磷酸烯醇式丙酮酸羧激酶活性增加了10至15倍,同时肝切片中丙酮酸转化为糖原的整个途径也有类似增加。2. 胰高血糖素对体内糖异生没有影响,体内糖异生仍维持在新生动物所测掺入量的约0.1%。3. 这些结果之间明显的差异是由于体内实验所需的乙醚麻醉。在使用最少乙醚的条件下,体内[3-(14)C]丙酮酸标记糖原的速率增加了10至20倍,并且胰高血糖素还有额外刺激作用。4. 乙醚麻醉使胎肝细胞溶质的氧化还原状态更还原,并降低了ATP/ADP浓度比。5. 有人提出,这些作用在限制胎鼠肝脏糖异生方面具有重要意义,因此只有在磷酸烯醇式丙酮酸羧激酶活性高、ATP浓度高且细胞溶质氧化还原状态相对氧化时,才会存在功能性糖异生途径。
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