Watt Matthew J, Heigenhauser George J F, Dyck David J, Spriet Lawrence L
Department of Human Biology and Nutritional Sciences, University of Guelph, Ontario N1G 2W1.
J Physiol. 2002 Jun 15;541(Pt 3):969-78. doi: 10.1113/jphysiol.2002.018820.
This study investigated intramuscular triacylglycerol (IMTG) and glycogen utilisation, pyruvate dehydrogenase activation (PDHa) and acetyl group accumulation during prolonged moderate intensity exercise. Seven endurance-trained men cycled for 240 min at 57 % maximal oxygen consumption (V(O2,max)) and duplicate muscle samples were obtained at rest and at 10, 120 and 240 min of exercise. We hypothesised that IMTG utilisation would be augmented during 2-4 h of exercise, while PDHa would be decreased secondary to reduced glycogen metabolism. IMTG was measured on both muscle samples at each time point and the coefficient of variation was 12.3 +/- 9.4 %. Whole body respiratory exchange ratio (RER) decreased from 0.89 +/- 0.01 at 30 min to 0.83 +/- 0.01 at 150 min and remained low throughout exercise. Plasma glycerol and free fatty acids (FFAs) had increased compared with rest at 90 min and progressively increased until exercise cessation. Although plasma glucose tended to decrease with exercise, this was not significant. IMTG was reduced at 120 min compared with rest (0 min, 15.6 +/- 0.8 mmol kg(-1) d.m.; 120 min, 12.8 +/- 0.7 mmol kg(-1) d.m.) but no further reduction in IMTG was observed at 240 min. Muscle glycogen was 468 +/- 49 mmol kg(-1) d.m. at rest and decreased at 120 min and again at 240 min (217 +/- 48 and 144 + 47 mmol kg(-1) d.m.). PDHa increased above rest at 10 and 120 min, but decreased at 240 min, which coincided with reduced whole body carbohydrate oxidation. Muscle pyruvate and ATP were unchanged with exercise. Acetyl CoA increased at 10 min and remained elevated throughout exercise. Acetylcarnitine increased at exercise onset but returned to resting values by 240 min. Contrary to our first hypothesis, significant utilisation of IMTG occurred during the first 2 h of moderate exercise but not during hours 2-4. The reduced utilisation of intramuscular fuels during the last 120 min was offset by greater FFA delivery and oxidation. Consistent with the second hypothesis, PDHa decreased late in moderate exercise and closely matched the estimates of lower carbohydrate flux. Although the factor underlying the PDHa decrease was not apparent, reduced pyruvate provision secondary to diminished glycolytic flux is the most likely mechanism.
本研究调查了长时间中等强度运动期间肌肉内三酰甘油(IMTG)和糖原的利用情况、丙酮酸脱氢酶激活(PDHa)以及乙酰基积累。七名耐力训练的男性以最大摄氧量(V(O2,max))的57%进行了240分钟的骑行,在休息时以及运动10、120和240分钟时获取了重复的肌肉样本。我们假设在运动2 - 4小时期间IMTG的利用会增加,而由于糖原代谢减少,PDHa会降低。在每个时间点对两个肌肉样本都进行了IMTG测量,变异系数为12.3±9.4%。全身呼吸交换率(RER)从30分钟时的0.89±0.01降至150分钟时的0.83±0.01,并且在整个运动过程中一直保持较低水平。与休息时相比,血浆甘油和游离脂肪酸(FFA)在90分钟时增加,并持续增加直至运动结束。尽管血浆葡萄糖随运动有下降趋势,但并不显著。与休息时相比(0分钟时为15.6±0.8 mmol kg(-1)干重;120分钟时为12.8±0.7 mmol kg(-1)干重),IMTG在12
