Postcontraction [acetylcarnitine] reflects interindividual variation in skeletal muscle ATP production patterns in vivo.

IF 2.2 3区医学 Q3 PHYSIOLOGY

American journal of physiology. Regulatory, integrative and comparative physiology Pub Date : 2024-01-01 Epub Date: 2023-11-13 DOI:10.1152/ajpregu.00027.2023

Christopher M T Hayden, Rajakumar Nagarajan, Zoe H Smith, Samantha Gilmore, Jane A Kent

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Abstract

In addition to its role in substrate selection (carbohydrate vs. fat) for oxidative metabolism in muscle, acetylcarnitine production may be an important modulator of the energetic pathway by which ATP is produced. A combination of noninvasive magnetic resonance spectroscopy measures of cytosolic acetylcarnitine and ATP production pathways was used to investigate the link between [acetylcarnitine] and energy production in vivo. Intracellular metabolites were measured in the vastus lateralis muscle of eight males (mean: 28.4 yr, range: 25-35) during 8 min of incremental, dynamic contractions (0.5 Hz, 2-min stages at 6%, 9%, 12%, and 15% maximal torque) that increased [acetylcarnitine] approximately fivefold from resting levels. ATP production via oxidative phosphorylation, glycolysis, and the creatine kinase reaction was calculated based on phosphorus metabolites and pH. Spearman rank correlations indicated that postcontraction [acetylcarnitine] was positively associated with both absolute (mM) and relative (% total ATP) glycolytic ATP production (r_s = 0.95, P = 0.001; r_s = 0.93, P = 0.002), and negatively associated with relative (r_s = -0.81, P = 0.02) but not absolute (r_s = -0.14, P = 0.75) oxidative ATP production. Thus, acetylcarnitine accumulated more when there was a greater reliance on "nonoxidative" glycolysis and a relatively lower contribution from oxidative phosphorylation, reflecting the fate of pyruvate in working skeletal muscle. Furthermore, these data indicate striking interindividual variation in responses to the energy demand of submaximal contractions. Overall, the results of this preliminary study provide novel evidence of the coupling in vivo between ATP production pathways and the carnitine system.NEW & NOTEWORTHY Production of acetylcarnitine from acetyl-CoA and free carnitine may be important for energy pathway regulation in contracting skeletal muscle. Noninvasive magnetic resonance spectroscopy was used to investigate the link between acetylcarnitine and energy production in the vastus lateralis muscle during dynamic contractions (n = 8 individuals). A positive correlation between acetylcarnitine accumulation and "nonoxidative" glycolysis and an inverse relationship with oxidative phosphorylation, provides novel evidence of the coupling between ATP production and the carnitine system in vivo.

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收缩后[乙酰肉碱]反映体内骨骼肌ATP产生模式的个体差异。

除了在肌肉氧化代谢的底物选择(碳水化合物与脂肪)中发挥作用外，乙酰肉碱的产生可能是ATP产生的能量途径的重要调节剂。结合非侵入性磁共振波谱测量细胞内乙酰肉碱和ATP产生途径，研究了[乙酰肉碱]和体内能量产生之间的联系。8名男性(平均28.4岁，范围25-35岁)在8min的增量动态收缩(0.5Hz, 2分钟阶段，最大扭矩为6,9,12和15%)期间测量了胞内代谢物，使[乙酰肉碱]比静息水平增加了约5倍。根据磷代谢产物和ph值计算通过氧化磷酸化、糖酵解和肌酸激酶反应产生的ATP。Spearman秩相关表明，收缩后[乙酰肉碱]与绝对(mM)和相对(%总ATP)糖酵解ATP产生呈正相关(rs=0.95, p=0.001;rs=0.93, p=0.002)，与相对(rs=-0.81, p=0.02)负相关，但与绝对(rs=-0.14, p=0.75)负相关。因此，当更依赖于“非氧化”糖酵解和相对较低的氧化磷酸化贡献时，乙酰肉碱积累更多，反映了丙酮酸在工作骨骼肌中的命运。此外，这些数据表明，对次极大收缩的能量需求的反应存在显著的个体差异。总的来说，这项初步研究的结果为体内ATP产生途径与肉碱系统之间的耦合提供了新的证据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American journal of physiology. Regulatory, integrative and comparative physiology 医学-生理学

CiteScore

5.30

自引率

3.60%

发文量

145

审稿时长

2 months

期刊介绍： The American Journal of Physiology-Regulatory, Integrative and Comparative Physiology publishes original investigations that illuminate normal or abnormal regulation and integration of physiological mechanisms at all levels of biological organization, ranging from molecules to humans, including clinical investigations. Major areas of emphasis include regulation in genetically modified animals; model organisms; development and tissue plasticity; neurohumoral control of circulation and hypertension; local control of circulation; cardiac and renal integration; thirst and volume, electrolyte homeostasis; glucose homeostasis and energy balance; appetite and obesity; inflammation and cytokines; integrative physiology of pregnancy-parturition-lactation; and thermoregulation and adaptations to exercise and environmental stress.