Isoprostanes as markers for muscle aging in older athletes

Biochimie open Pub Date : 2018-06-01 DOI:10.1016/j.biopen.2017.12.001

Claire Vinel , Ophélie Pereira , Aude Dupuy , Justine Bertrand-Michel , Dalila Laoudj-Chenivesse , Yves Rolland , Daniel Rivière , Philippe Valet , Cédric Dray , Fabien Pillard

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引用次数: 1

Abstract

Introduction

Production of isoprostanes (IsoPs) is enhanced after acute, intense, and prolonged exercise, in untrained subjects. This effect is greater in older subjects. The present study aims to delineate the profile of acute-exercise-induced IsoPs levels in young and older endurance-trained subjects.

Methods

All included subjects were male, young (n = 6; 29 yrs ± 5.7) or older (n = 6; 63.7 yrs ± 2.3), and competitors. The kinetics of F₂-IsoPs in blood-sera was assessed at rest, for the maximal aerobic exercise power (MAP) corresponding to the cardio-respiratory fitness index and after a 30-min recovery period.

Results

No significant time effect on F₂-IsoPs kinetics was identified in young subjects. However, in older athletes, F₂-IsoPs blood-concentrations at the MAP were higher than at rest, whereas these blood-concentrations did not differ between rest and after the 30-min recovery period.

Conclusion

Because plasma glutathione (GSH) promotes the formation of some F₂-IsoPs, we suggest that the surprising decrease in F₂-IsoPs levels in older subjects would be caused by decreased GSH under major ROS production in older subjects. We argue that the assessment F₂-IsoPs in plasma as biomarkers of the aging process should be challenged by exercise to improve the assessment of the functional response against reactive oxygen species in older subjects.

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异前列腺素作为老年运动员肌肉老化的标志

在未经训练的受试者中，异前列腺素(IsoPs)的产生在急性、高强度和长时间运动后增强。这种影响在年龄较大的受试者中更为明显。本研究旨在描述青年和老年耐力训练对象的急性运动诱导的IsoPs水平。方法所有受试者均为男性，年轻(n = 6;29岁±5.7岁)或以上(n = 6;(63.7岁±2.3岁);在静止状态、心肺适能指数对应的最大有氧运动功率(MAP)和恢复期30 min后，评估血清F2-IsoPs的动力学。结果青年受试者F2-IsoPs动力学无明显时间效应。然而，在老年运动员中，MAP时F2-IsoPs血药浓度高于休息时，而这些血药浓度在休息和30分钟恢复期后没有差异。结论血浆谷胱甘肽(GSH)促进了某些F2-IsoPs的形成，我们认为老年人F2-IsoPs水平的惊人下降可能是由于老年人主要ROS生成下的谷胱甘肽(GSH)下降所致。我们认为，评估血浆中F2-IsoPs作为衰老过程的生物标志物应该通过运动来挑战，以改善老年人对活性氧的功能反应的评估。

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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Biochimie open

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