Endocrine Research Unit, Mayo Clinic, Rochester, MN, USA.
Am J Physiol Endocrinol Metab. 2012 Nov 1;303(9):E1117-25. doi: 10.1152/ajpendo.00067.2012. Epub 2012 Sep 11.
Systemic insulin administration causes hypoaminoacidemia by inhibiting protein degradation, which may in turn inhibit muscle protein synthesis (PS). Insulin enhances muscle mitochondrial PS and ATP production when hypoaminoacidemia is prevented by exogenous amino acid (AA) replacement. We determined whether insulin would stimulate mitochondrial PS and ATP production in the absence of AA replacement. Using l-[1,2-¹³C]leucine as a tracer, we measured the fractional synthetic rate of mitochondrial as well as sarcoplasmic and mixed muscle proteins in 18 participants during sustained (7-h) insulin or saline infusion (n = 9 each). We also measured muscle ATP production, mitochondrial enzyme activities, mRNA levels of mitochondrial genes, and phosphorylation of signaling proteins regulating protein synthesis. The concentration of circulating essential AA decreased during insulin infusion. Mitochondrial, sarcoplasmic, and mixed muscle PS rates were also lower during insulin (2-7 h) than during saline infusions despite increased mRNA levels of selected mitochondrial genes. Under these conditions, insulin did not alter mitochondrial enzyme activities and ATP production. These effects were associated with enhanced phosphorylation of Akt but not of protein synthesis activators mTOR, p70(S6K), and 4EBP1. In conclusion, sustained physiological hyperinsulinemia without AA replacement did not stimulate PS of mixed muscle or protein subfractions and did not alter muscle mitochondrial ATP production in healthy humans. These results support that insulin and AA act in conjunction to stimulate muscle mitochondrial function and mitochondrial protein synthesis.
系统给予胰岛素会通过抑制蛋白降解导致低氨基酸血症,而这可能会反过来抑制肌肉蛋白合成(PS)。当通过外源性氨基酸(AA)替代来防止低氨基酸血症时,胰岛素会增强肌肉线粒体 PS 和 ATP 的产生。我们确定了在没有 AA 替代的情况下,胰岛素是否会刺激线粒体 PS 和 ATP 的产生。使用 l-[1,2-¹³C]亮氨酸作为示踪剂,我们在持续(7 小时)胰岛素或生理盐水输注期间(n = 9 个)测量了 18 名参与者的线粒体以及肌浆和混合肌肉蛋白的分数合成率。我们还测量了肌肉 ATP 的产生、线粒体酶活性、线粒体基因的 mRNA 水平以及调节蛋白质合成的信号蛋白的磷酸化。在胰岛素输注期间,循环必需 AA 的浓度降低。尽管选定的线粒体基因的 mRNA 水平增加,但在胰岛素输注期间(2-7 小时),线粒体、肌浆和混合肌肉 PS 率也低于生理盐水输注期间。在这些条件下,胰岛素不会改变线粒体酶活性和 ATP 的产生。这些影响与 Akt 的磷酸化增强有关,但与蛋白质合成激活剂 mTOR、p70(S6K)和 4EBP1 的磷酸化无关。总之,在没有 AA 替代的情况下,持续的生理高胰岛素血症并未刺激混合肌肉或蛋白质亚部分的 PS,也未改变健康人类的肌肉线粒体 ATP 的产生。这些结果表明胰岛素和 AA 协同作用以刺激肌肉线粒体功能和线粒体蛋白合成。
