Department of Biomedical Kinesiology, Research Centre for Exercise and Health, FaBeR-K.U. Leuven, Tervuursevest 101, 3001 Leuven, Heverlee, Belgium.
Eur J Appl Physiol. 2011 Jul;111(7):1297-305. doi: 10.1007/s00421-010-1753-7. Epub 2010 Dec 4.
Nutrition is an important co-factor in exercise-induced training adaptations in muscle. We compared the effect of 6 weeks endurance training (3 days/week, 1-2 h at 75% VO(2peak)) in either the fasted state (F; n = 10) or in the high carbohydrate state (CHO, n = 10), on Ca(2+)-dependent intramyocellular signalling in young male volunteers. Subjects in CHO received a carbohydrate-rich breakfast before each training session, as well as ingested carbohydrates during exercise. Before (pretest) and after (posttest) the training period, subjects performed a 2 h constant-load exercise bout (~70% of pretest VO(2peak)) while ingesting carbohydrates (1 g/kg h(-1)). A muscle biopsy was taken from m. vastus lateralis immediately before and after the test, and after 4 h of recovery. Compared with pretest, in the posttest basal eukaryotic elongation factor 2 (eEF2) phosphorylation was elevated in CHO (P < 0.05), but not in F. In the pretest, exercise increased the degree of eEF2 phosphorylation about twofold (P < 0.05), and values returned to baseline within the 4 h recovery period in each group. However, in the posttest dephosphorylation of eEF2 was negated after recovery in CHO, but not in F. Independent of the dietary condition training enhanced the basal phosphorylation status of Phospholamban at Thr(17), 5'-AMP-activated protein kinase α (AMPKα), and Acetyl CoA carboxylase β (ACCβ), and abolished the exercise-induced increase of AMPKα and ACCβ (P < 0.05). In conclusion, training in the fasted state, compared with identical training with ample carbohydrate intake, facilitates post-exercise dephosphorylation of eEF2. This may contribute to rapid re-activation of muscle protein translation following endurance exercise.
营养是运动诱导的肌肉训练适应的一个重要协同因素。我们比较了 6 周的耐力训练(每周 3 天,75% VO2peak 下 1-2 小时)在空腹状态(F;n=10)或高碳水化合物状态(CHO,n=10)下对年轻男性志愿者的 Ca2+依赖性肌内信号的影响。CHO 组的受试者在每次训练前都要吃一顿富含碳水化合物的早餐,并在运动期间摄入碳水化合物。在训练前(预测试)和后(后测试),受试者进行了 2 小时的恒定负荷运动(约 70%的预测试 VO2peak),同时摄入碳水化合物(1 g/kg h(-1))。在测试前后和恢复 4 小时后,从股外侧肌中取出肌肉活检。与预测试相比,后测试中 CHO 组的基础真核延伸因子 2(eEF2)磷酸化升高(P<0.05),而 F 组则没有。在预测试中,运动使 eEF2 的磷酸化程度增加了大约两倍(P<0.05),并且在每组的 4 小时恢复期间,值都回到了基线。然而,在后测试中,CHO 组的 eEF2 去磷酸化在恢复后被否定,而 F 组则没有。独立于饮食条件,训练增强了磷酸化酶磷蛋白(Thr17)、5'-AMP 激活蛋白激酶α(AMPKα)和乙酰辅酶 A 羧化酶β(ACCβ)的基础磷酸化状态,并消除了运动引起的 AMPKα 和 ACCβ的增加(P<0.05)。总之,与摄入充足碳水化合物的相同训练相比,空腹状态下的训练促进了运动后 eEF2 的去磷酸化。这可能有助于耐力运动后肌肉蛋白质翻译的快速再激活。
