氟烷麻醉诱导的基础状态下大鼠的葡萄糖利用和糖异生速率。
Rates of glucose utilization and glucogenesis in rats in the basal state induced by halothane anaesthesia.
作者信息
Heath D F, Frayn K N, Rose J G
出版信息
Biochem J. 1977 Mar 15;162(3):643-51. doi: 10.1042/bj1620643.
Abstract
- Rates and rate coefficients of glucose utilization and replacement were determined with [5-3H]- and [U-14C]-glucose in rats starved for 24h, either conscious or under halothane anaesthesia, in a thermoneutral environment. Plasma insulin concentrations were also measured. 2. Halothane anaesthesia decreased the turnover rate by 20%, which was similar to previously reported decreases in metabolic rates caused by natural sleep. 3. Fractional recycling of glucose carbon was little affected by halothane. 4. Comparison of values in one rat with those in another, among both conscious rats and those under halothane anaesthesia, showed that rate coefficients were inversely correlated with plasma glucose concentrations. 5. These findings indicated that halothane, in the concentration used (1.25%, v/v), had little specific effect on glucose metabolism. 6. Although equilibrium plasma glucose concentrations in different rats under halothane were widely different (4-8 mmol/l) the rates of utilization were very similar (2.5-3.1 micronmol/min per 100 g), indicating that these rates were determined by the production of glucose from gluconeogenic precursors released by basal metabolism, the rate of which is necessarily similar in different rats. 7. Among rats under halothane anaesthesia plasma insulin concentrations were negatively correlated with rate coefficients, showing that the differences between rate coefficients were mostly accounted for by differences between rats in tissue sensitivities to insulin. Thus in each 24h-starved rat, sleeping or resting, the main regulators of the plasma glucose concentrations were the rate of supply of gluconeogenic substrates from energy metabolism and the intrinsic sensitivity of the tissues to insulin. 8. We found that a commonly used deionization method of purifying glucose for determination of its specific radioactivity was inadequate.
摘要
- 在热中性环境中,对饥饿24小时的清醒或氟烷麻醉大鼠,用[5-³H]-和[U-¹⁴C]-葡萄糖测定葡萄糖利用和补充的速率及速率系数。同时测定血浆胰岛素浓度。2. 氟烷麻醉使周转率降低20%,这与先前报道的自然睡眠引起的代谢率降低相似。3. 氟烷对葡萄糖碳的部分再循环影响很小。4. 比较清醒大鼠和氟烷麻醉大鼠中一只大鼠与另一只大鼠的值,发现速率系数与血浆葡萄糖浓度呈负相关。5. 这些发现表明,所用浓度(1.25%,v/v)的氟烷对葡萄糖代谢几乎没有特异性影响。6. 尽管氟烷麻醉下不同大鼠的血浆葡萄糖平衡浓度差异很大(4 - 8 mmol/l),但利用速率非常相似(每100 g 2.5 - 3.1微摩尔/分钟),这表明这些速率由基础代谢释放的糖异生前体产生葡萄糖的速率决定,不同大鼠的这一速率必然相似。7. 在氟烷麻醉的大鼠中,血浆胰岛素浓度与速率系数呈负相关,表明速率系数的差异主要由大鼠组织对胰岛素的敏感性差异所致。因此,在每只饥饿24小时的大鼠中,无论睡眠还是休息,血浆葡萄糖浓度的主要调节因素是能量代谢中糖异生底物的供应速率以及组织对胰岛素的内在敏感性。8. 我们发现一种常用的纯化葡萄糖以测定其比放射性的去离子化方法并不充分。
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