Section of Molecular Physiology, Department of Nutrition, Exercise, and Sports, Faculty of Science, University of Copenhagen, Copenhagen, Denmark.
INSERM, U1016, Institut Cochin, Paris, France.
Diabetes. 2019 Jul;68(7):1427-1440. doi: 10.2337/db19-0050. Epub 2019 Apr 22.
Exercise increases glucose uptake in skeletal muscle independently of insulin signaling. This makes exercise an effective stimulus to increase glucose uptake in insulin-resistant skeletal muscle. AMPK has been suggested to regulate muscle glucose uptake during exercise/contraction, but findings from studies of various AMPK transgenic animals have not reached consensus on this matter. Comparing methods used in these studies reveals a hitherto unappreciated difference between those studies reporting a role of AMPK and those that do not. This led us to test the hypothesis that AMPK and downstream target TBC1D1 are involved in regulating muscle glucose uptake in the immediate period after exercise/contraction but not during exercise/contraction. Here we demonstrate that glucose uptake during exercise/contraction was not compromised in AMPK-deficient skeletal muscle, whereas reversal of glucose uptake toward resting levels after exercise/contraction was markedly faster in AMPK-deficient muscle compared with wild-type muscle. Moreover, muscle glucose uptake after contraction was positively associated with phosphorylation of TBC1D1, and skeletal muscle from TBC1D1-deficient mice displayed impaired glucose uptake after contraction. These findings reconcile previous observed discrepancies and redefine the role of AMPK activation during exercise/contraction as being important for maintaining glucose permeability in skeletal muscle in the period after, but not during, exercise/contraction.
运动可独立于胰岛素信号增加骨骼肌对葡萄糖的摄取。这使得运动成为增加胰岛素抵抗骨骼肌葡萄糖摄取的有效刺激。AMPK 被认为在运动/收缩期间调节肌肉葡萄糖摄取,但来自各种 AMPK 转基因动物研究的结果在这一问题上并未达成共识。比较这些研究中使用的方法揭示了一个迄今未被认识到的差异,即那些报告 AMPK 作用的研究和那些没有报告 AMPK 作用的研究之间的差异。这促使我们检验以下假设:AMPK 和下游靶标 TBC1D1 参与调节运动/收缩后即刻的肌肉葡萄糖摄取,但不参与运动/收缩期间的调节。在这里,我们证明在 AMPK 缺陷型骨骼肌中,运动/收缩期间的葡萄糖摄取并未受损,而与野生型肌肉相比,AMPK 缺陷型肌肉中运动/收缩后葡萄糖摄取向静息水平的恢复明显更快。此外,收缩后肌肉葡萄糖摄取与 TBC1D1 的磷酸化呈正相关,并且 TBC1D1 缺陷型小鼠的骨骼肌在收缩后显示出葡萄糖摄取受损。这些发现调和了以前观察到的差异,并重新定义了 AMPK 在运动/收缩期间的激活作用,即在运动/收缩后而不是运动/收缩期间,对维持骨骼肌葡萄糖通透性非常重要。
