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BCAA 代谢紊乱会损害小鼠的运动代谢和耐力。

Disruption of BCAA metabolism in mice impairs exercise metabolism and endurance.

机构信息

Department of Cellular and Molecular Physiology, Pennsylvania State University College of Medicine, Hershey, Pennsylvania 17033, USA.

出版信息

J Appl Physiol (1985). 2010 Apr;108(4):941-9. doi: 10.1152/japplphysiol.01248.2009. Epub 2010 Feb 4.

DOI:10.1152/japplphysiol.01248.2009
PMID:20133434
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2853195/
Abstract

Exercise enhances branched-chain amino acid (BCAA) catabolism, and BCAA supplementation influences exercise metabolism. However, it remains controversial whether BCAA supplementation improves exercise endurance, and unknown whether the exercise endurance effect of BCAA supplementation requires catabolism of these amino acids. Therefore, we examined exercise capacity and intermediary metabolism in skeletal muscle of knockout (KO) mice of mitochondrial branched-chain aminotransferase (BCATm), which catalyzes the first step of BCAA catabolism. We found that BCATm KO mice were exercise intolerant with markedly decreased endurance to exhaustion. Their plasma lactate and lactate-to-pyruvate ratio in skeletal muscle during exercise and lactate release from hindlimb perfused with high concentrations of insulin and glucose were significantly higher in KO than wild-type (WT) mice. Plasma and muscle ammonia concentrations were also markedly higher in KO than WT mice during a brief bout of exercise. BCATm KO mice exhibited 43-79% declines in the muscle concentration of alanine, glutamine, aspartate, and glutamate at rest and during exercise. In response to exercise, the increments in muscle malate and alpha-ketoglutarate were greater in KO than WT mice. While muscle ATP concentration tended to be lower, muscle IMP concentration was sevenfold higher in KO compared with WT mice after a brief bout of exercise, suggesting elevated ammonia in KO is derived from the purine nucleotide cycle. These data suggest that disruption of BCAA transamination causes impaired malate/aspartate shuttle, thereby resulting in decreased alanine and glutamine formation, as well as increases in lactate-to-pyruvate ratio and ammonia in skeletal muscle. Thus BCAA metabolism may regulate exercise capacity in mice.

摘要

运动增强支链氨基酸(BCAA)的分解代谢,BCAA 补充会影响运动代谢。然而,BCAA 补充是否能提高运动耐力仍存在争议,并且未知 BCAA 补充对运动耐力的影响是否需要这些氨基酸的分解代谢。因此,我们检查了催化 BCAA 分解代谢第一步的线粒体支链氨基转移酶(BCATm)敲除(KO)小鼠骨骼肌的运动能力和中间代谢。我们发现,BCATm KO 小鼠不耐受运动,耐力明显下降,无法达到力竭。在运动过程中,KO 小鼠的血浆乳酸和肌肉中乳酸/丙酮酸比值、高浓度胰岛素和葡萄糖灌流后后肢的乳酸释放均明显高于野生型(WT)小鼠。KO 小鼠在短暂运动期间的血浆和肌肉氨浓度也明显高于 WT 小鼠。KO 小鼠在休息和运动期间肌肉丙氨酸、谷氨酰胺、天冬氨酸和谷氨酸浓度分别下降了 43-79%。对运动的反应,KO 小鼠的肌肉苹果酸和α-酮戊二酸增加量高于 WT 小鼠。尽管肌肉 ATP 浓度有下降趋势,但 KO 小鼠在短暂运动后肌肉 IMP 浓度比 WT 小鼠高 7 倍,表明 KO 中的氨来自嘌呤核苷酸循环。这些数据表明,BCAA 转氨基作用的破坏导致苹果酸/天冬氨酸穿梭受损,从而导致丙氨酸和谷氨酰胺形成减少,以及乳酸/丙酮酸比值和肌肉氨增加。因此,BCAA 代谢可能调节小鼠的运动能力。

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