Acute nutritional ketosis during early recovery from aerobic exercise does not affect skeletal muscle transcriptomic response in humans.

IF 2.7 3区医学 Q2 PHYSIOLOGY

European Journal of Applied Physiology Pub Date : 2025-09-17 DOI:10.1007/s00421-025-05987-9

Erick Mosquera-Lopez, Julien Louis, Jason P Edwards, Jamie Pugh, Mark R Viggars, Daniel J Owens, Jose L Areta

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引用次数: 0

Abstract

Purpose: Nutritional ketosis is purported to enhance skeletal muscle recovery and adaptation to exercise, yet precise adaptive mechanisms are unknown. We investigated the post-exercise molecular response to ketone monoesters (KME) in skeletal muscle by characterising the early transcriptomic response.

Methods: Following a randomised, double-blind, crossover design, recreationally active men (n = 9, age: 26 ± 5 (means ± SD) y; V̇O_2max: 47 ± 4 mL·kg^-1·min^-1) completed two experimental trials where they ingested either 1.25 g·kg^-1 of KME or a taste-matched placebo (PLA) drink during exercise (90-min cycling at 60% of V̇O_2max) and 3-h recovery. Blood samples were taken throughout for hormone and metabolite analyses, and muscle biopsies were taken at baseline and 3 h post-exercise for glycogen and genome-wide gene expression analyses.

Results: Recovery ßHB concentrations were higher in KME (4.1 ± 0.7 mM) vs PLA (0.1 ± 0.0 mM, P < 0.001). Erythropoietin (EPO) showed a main effect of time (P = 0.044), but no condition effect (P = 0.087) or interaction (P = 0.318). Skeletal muscle glycogen decreased post-exercise (-57%, P < 0.001) as expected, but showed no condition effect (P = 0.889) or interaction (P = 0.907). We measured the expression of 16,898 genes, and despite a clear time effect on the skeletal muscle transcriptome (1561 differentially expressed genes post vs pre-exercise; q < 0.05 fold change > ± 1.5), there was no effect of condition.

Conclusions: KME did not demonstrate an effect on EPO concentration, muscle glycogen or transcriptome, suggesting DNA translation is likely not a process directly regulated by acute ketonaemia that increases early post-exercise.

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有氧运动恢复早期急性营养性酮症不影响人类骨骼肌转录组反应。

目的：营养酮症被认为可以增强骨骼肌的恢复和对运动的适应，但确切的适应机制尚不清楚。我们通过表征早期转录组反应，研究了骨骼肌运动后对酮单酯（KME）的分子反应。方法：采用随机、双盲、交叉设计，选取娱乐活动男性(n = 9，年龄：26±5 (mean±SD) y；在运动期间（以60%的v_o2max循环90分钟）和恢复3小时，他们分别摄入1.25 g·kg-1 KME或口味匹配的安慰剂（PLA）饮料，完成了两项实验。在整个过程中采集血液样本进行激素和代谢物分析，并在基线和运动后3小时进行肌肉活检，进行糖原和全基因组基因表达分析。结果：KME组恢复ßHB浓度（4.1±0.7 mM）高于PLA组（0.1±0.0 mM, P±1.5），不受条件影响。结论：KME未显示对EPO浓度、肌糖原或转录组的影响，提示DNA翻译可能不是由急性酮血症直接调节的过程，而急性酮血症在运动后早期会增加。

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

European Journal of Applied Physiology 医学-生理学

CiteScore

6.00

自引率

6.70%

发文量

227

审稿时长

3 months

期刊介绍： The European Journal of Applied Physiology (EJAP) aims to promote mechanistic advances in human integrative and translational physiology. Physiology is viewed broadly, having overlapping context with related disciplines such as biomechanics, biochemistry, endocrinology, ergonomics, immunology, motor control, and nutrition. EJAP welcomes studies dealing with physical exercise, training and performance. Studies addressing physiological mechanisms are preferred over descriptive studies. Papers dealing with animal models or pathophysiological conditions are not excluded from consideration, but must be clearly relevant to human physiology.