Kerr J S, Baker N J, Bassett D J, Fisher A B
Am J Physiol. 1979 Mar;236(3):E229-33. doi: 10.1152/ajpendo.1979.236.3.E229.
We investigated the relationship between perfusate concentration of glucose and its utilization and lactate production derived from exogenous glucose and from metabolism of endogenous substrates. Isolated rat lungs were ventilated with 5% CO2 in air and perfused for 100 min with Krebs-Ringer bicarbonate buffer containing 3% bovine serum albumin, 10(-2) U/ml insulin, [U-14C]glucose and [5-3H]glucose. Glucose utilization, total lactate production, [14C]lactate production, and 3H2O production were measured. The apparent Km and Vmax for glucose utilization were 3.4 mM and 72.5 mumol/g dry wt per h, respectively. Lactate production from endogenous substrates, calculated as the difference between total and [14C]lactate, was 37.6 +/- 2.2 mumol/g dry wt (n = 36); it was unaffected by perfusate glucose concentration and by omission of insulin, but increased threefold with anoxia. Lactate production from 1.5 mM glucose was significantly less (P less than 0.02) with insulin omitted. Glycogen content was unchanged during perfusion without glucose. These results suggest that: 1) protein catabolism contributes to lung lactate production; 2) glucose utilization by lung is not maximal at resting physiological glucose concentrations; and 3) insulin is required at low glucose concentrations for maximal glycolytic rates.
我们研究了灌注液中葡萄糖浓度与其利用情况以及外源性葡萄糖和内源性底物代谢产生乳酸之间的关系。将离体大鼠肺用含5%二氧化碳的空气进行通气,并使用含有3%牛血清白蛋白、10⁻²U/ml胰岛素、[U-¹⁴C]葡萄糖和[5-³H]葡萄糖的 Krebs-Ringer 碳酸氢盐缓冲液灌注100分钟。测定葡萄糖利用情况、总乳酸生成量、[¹⁴C]乳酸生成量和³H₂O生成量。葡萄糖利用的表观Km和Vmax分别为3.4 mM和72.5 μmol/g干重每小时。内源性底物产生的乳酸,计算为总乳酸与[¹⁴C]乳酸之差,为37.6±2.2 μmol/g干重(n = 36);它不受灌注液葡萄糖浓度和胰岛素缺失的影响,但在缺氧时增加了三倍。在无胰岛素时,1.5 mM葡萄糖产生的乳酸显著减少(P<0.02)。在无葡萄糖灌注期间糖原含量不变。这些结果表明:1)蛋白质分解代谢有助于肺乳酸的产生;2)在静息生理葡萄糖浓度下,肺对葡萄糖的利用并非最大;3)在低葡萄糖浓度下,最大糖酵解速率需要胰岛素。
