Impact of exercise and fasting on mitochondrial regulators in human muscle.

Translational exercise biomedicine Pub Date : 2024-08-19 eCollection Date: 2024-09-01 DOI:10.1515/teb-2024-0014

Eveline S Menezes, Hashim Islam, Benjamin B Arhen, Craig A Simpson, Chris McGlory, Brendon J Gurd

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Abstract

Objectives: To investigate the impact of acute energetic stress (acute HIIE and fasting) on ERRγ, PPARβ, NR1D1, NR4A1, and TFEB in human skeletal muscle.

Methods: The current study performed secondary analyses using muscle biopsy samples from two previously published studies: study 1) leg muscle biopsies from nine men and eight women were obtained pre and 3 h following acute high-intensity interval cycling exercise (HIIE); study 2) leg muscle biopsies were obtained from nine men pre-, during, and post-an 8 h fast with or without 2 h of arm ergometer exercise. RT-PCR was performed on samples from each study to determine the mRNA expression of ERRγ, PPARβ, NR1D1, NR4A1, and TFEB. Additionally, we retrieved data from meta-analyzed human muscle gene expression using the publicly available database MetaMex.

Results: PGC-1α (p<0.01, d=1.98) and NR4A1 (p<0.01, d=1.36) mRNA expression significantly increased while TFEB (p≤0.05, d=0.70) decreased following HIIE. Significant decreases in NR4A1 and NR1D1 mRNA expression were observed following an 8 h fast. Our MetaMex analyses revealed significant increases (p<0.05) in PGC-1α and NR4A1 expression following aerobic and resistance exercise, and in PPARβ expression following resistance exercise.

Conclusions: Our data indicate that acute HIIE stimulates increases in NR4A1 and PGC-1α and decreases in TFEB mRNA expression in human skeletal muscle. Additionally, a short term (8 h) fast reduced the mRNA expression of the transcriptional regulators NR4A1 and NR1D1 - potentially as a mechanism of decreasing mitochondrial biogenesis to reduce energy expenditure during a period of restricted energy availability.

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运动和禁食对人体肌肉线粒体调节因子的影响。

目的：探讨急性能量应激（急性HIIE和空腹）对人骨骼肌ERRγ、PPARβ、NR1D1、NR4A1和TFEB的影响。方法：本研究使用先前发表的两项研究的肌肉活检样本进行了二次分析：研究1)在急性高强度间歇自行车运动（HIIE）之前和之后 h分别获得9名男性和8名女性的腿部肌肉活检；研究2)对9名男性进行腿部肌肉活检，分别在禁食前、禁食中和禁食后进行8 h，并进行或不进行2 h的手臂测力仪运动。对每项研究的样本进行RT-PCR检测ERRγ、PPARβ、NR1D1、NR4A1和TFEB的mRNA表达。此外，我们使用公开可用的数据库MetaMex从荟萃分析的人类肌肉基因表达中检索数据。结果：HIIE后PGC-1α、pNR4A1、pTFEB （p≤0.05,d=0.70）降低。禁食8 h后NR4A1和NR1D1 mRNA表达明显降低。我们的MetaMex分析显示，有氧运动和阻力运动后pPGC-1α和NR4A1表达显著增加，阻力运动后PPARβ表达显著增加。结论：我们的数据表明，急性HIIE刺激人体骨骼肌NR4A1和PGC-1α表达增加，TFEB mRNA表达降低。此外，短期（8 h）快速降低转录调节因子NR4A1和NR1D1的mRNA表达，这可能是在能量可用性受限期间减少线粒体生物发生以减少能量消耗的一种机制。

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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Translational exercise biomedicine

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