Katz A, Broberg S, Sahlin K, Wahren J
Am J Physiol. 1986 Jul;251(1 Pt 1):E65-70. doi: 10.1152/ajpendo.1986.251.1.E65.
Leg glucose uptake (LGU) during submaximal (50% maximal O2 uptake) and maximal dynamic exercise (97%) has been quantified from the product of the leg blood flow and the arterial minus femoral venous glucose concentration. Muscle biopsies were also obtained. During 15 min of submaximal exercise the mean LGU values ranged from 1.07 to 1.25 mmol/min, which demonstrates that LGU was stable under this condition. In contrast, during maximal exercise LGU increased continuously, reaching 2.38 +/- 0.22, 2.95 +/- 0.32, and 3.82 +/- 0.34 mmol/min after 2, 4, and 5.2 min (fatigue), respectively. The mean LGU was negatively related to the mean muscle phosphocreatine content (r = -1.00;P less than 0.01). Intracellular glucose-6-phosphate (G-6-P) and glucose were very low at rest and did not change significantly during submaximal exercise (P greater than 0.05). However, at fatigue G-6-P and glucose increased substantially and were both 8.5 mmol/kg dry muscle (P less than 0.001). These findings demonstrate that during heavy exercise glucose accumulates in the cell probably due to hexokinase inhibition by G-6-P, and thus the rate of glucose utilization appears to be lower than the rate of glucose uptake. It is suggested that 1) LGU during short-term exercise is dependent on the energy state of the muscle and 2) LGU is equal to leg glucose utilization during submaximal exercise but is in excess of utilization during heavy exercise.
通过腿部血流量与动脉血减去股静脉血葡萄糖浓度的乘积,已对次最大强度(最大摄氧量的50%)和最大强度动态运动(97%)期间的腿部葡萄糖摄取(LGU)进行了量化。还获取了肌肉活检样本。在15分钟的次最大强度运动期间,LGU的平均值在1.07至1.25毫摩尔/分钟之间,这表明在此条件下LGU是稳定的。相比之下,在最大强度运动期间,LGU持续增加,在2、4和5.2分钟(疲劳)后分别达到2.38±0.22、2.95±0.32和3.82±0.34毫摩尔/分钟。LGU的平均值与肌肉磷酸肌酸含量呈负相关(r = -1.00;P < 0.01)。静息时细胞内葡萄糖-6-磷酸(G-6-P)和葡萄糖水平非常低,在次最大强度运动期间没有显著变化(P > 0.05)。然而,在疲劳时,G-6-P和葡萄糖大幅增加,两者均为8.5毫摩尔/千克干肌肉(P < 0.001)。这些发现表明,在剧烈运动期间,葡萄糖可能由于G-6-P对己糖激酶的抑制作用而在细胞内积累,因此葡萄糖利用速率似乎低于葡萄糖摄取速率。有人提出:1)短期运动期间的LGU取决于肌肉的能量状态;2)在次最大强度运动期间,LGU等于腿部葡萄糖利用率,但在剧烈运动期间超过利用率。
