Mitochondrial Influence on Performance Fatigability: Considering Sex Variability.

IF 4.1 2区医学 Q1 SPORT SCIENCES Medicine and Science in Sports and Exercise Pub Date : 2025-02-01 Epub Date: 2024-09-04 DOI:10.1249/MSS.0000000000003558

Gaia Giuriato, Chiara Barbi, Fabio Giuseppe Laginestra, Mehran Emadi Andani, Thomas Favaretto, Camilla Martignon, Anna Pedrinolla, Gianluca Vernillo, Tatiana Moro, Martino Franchi, Maria Grazia Romanelli, Federico Schena, Massimo Venturelli

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Abstract

Objective: Existing literature indicates that females generally demonstrate higher fatigue resistance than males during isometric contractions. However, when it comes to single-limb dynamic exercises, the intricate interplay between performance fatigability (PF), cardiovascular responses, and muscle metabolism in relation to sex differences remains underexplored.

Purpose: This study investigates how sex affects the relationship between muscle oxidative characteristics and the development of PF during dynamic single-leg exercise.

Methods: Twenty-four young healthy participants (12 males vs 12 females) performed a constant-load single-leg knee extension task (85% peak power output; 60 rpm) to exhaustion (TTE). Neuromuscular assessments via transcranial magnetic and peripheral stimulations were conducted before and after exercise to evaluate central and peripheral factors of PF. Vastus lateralis muscle biopsies were obtained for mitochondrial respiration and immunohistochemistry analyses.

Results: Participants performed similar total work (28 ± 7 vs 27 ± 14 kJ, P = 0.81) and TTE (371 ± 139 vs 377 ± 158 s, P = 0.98); after the TTE, females' maximal isometric voluntary contraction (MVIC: -36% ± 13% vs -24% ± 9%, P = 0.006) and resting twitch (RT; -65% ± 9% vs -40% ± 24%, P = 0.004) force declined less. No differences were observed in supraspinal neuromuscular factors ( P > 0.05). During exercise, the cardiovascular responses differed between sexes. Although fiber type composition was similar (type I: 47% ± 13% vs 56% ± 14%, P = 0.11), males had lower mitochondrial net oxidative capacity (61 ± 30 vs 89 ± 37, P = 0.049) and higher Complex II contribution to maximal respiration (CII; 59% ± 8% vs 48% ± 6%, P < 0.001), which correlated with the decline in MVIC ( r = -0.74, P < 0.001) and RT ( r = -0.60, P = 0.002).

Conclusions: Females display greater resistance to PF during dynamic contractions, likely due to their superior mitochondrial efficiency and lower dependence on mitochondrial CII activity.

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线粒体对运动疲劳的影响：考虑性别差异

目的现有文献表明，在等长收缩过程中，女性通常比男性表现出更强的抗疲劳能力。目的：本研究探讨了在单腿动态运动中，性别如何影响肌肉氧化特性与抗疲劳性之间的关系：方法：24 名年轻健康参与者（12 名男性和 12 名女性）进行恒定负荷单腿伸膝运动（85% 峰值功率输出；60 转/分）至力竭（TTE）。运动前后通过经颅磁刺激和外周刺激进行神经肌肉评估，以评估膝外翻的中枢和外周因素。对侧阔肌进行活检，以进行线粒体呼吸和免疫组化分析：参与者的总功（28 ± 7 对 27 ± 14 kJ，p = 0.81）和 TTE（371 ± 139 对 377 ± 158 秒，p = 0.98）相似；TTE 结束后，女性最大等长自主收缩力（MVIC：-36 ± 13 对 -24 ± 9 %，p = 0.006）和静止抽动力（RT：（-65 ± 9 对 -40 ± 24 %，p = 0.004）下降较少。在脊髓上神经肌肉因子方面没有观察到差异（p > 0.05）。在运动过程中，男女的心血管反应有所不同。虽然纤维类型组成相似（I 型：47 ± 13 vs. 56 ± 14 %，p = 0.11），但男性的线粒体净氧化能力较低（61 ± 30 vs. 89 ± 37，p = 0.049），复合体 II 对最大呼吸的贡献较高（CII；59 ± 8 vs. 48 ± 6%，p < 0.001），这与 MVIC（r = -0.74，p < 0.001）和 RT（r = -0.60，p = 0.002）的下降相关：女性在动态收缩过程中对 PF 的抵抗力更强，这可能是由于其线粒体效率更高，对线粒体 CII 活性的依赖性更低。

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来源期刊

Medicine and Science in Sports and Exercise 医学-运动科学

CiteScore

7.70

自引率

4.90%

发文量

2568

审稿时长

1 months

期刊介绍： Medicine & Science in Sports & Exercise® features original investigations, clinical studies, and comprehensive reviews on current topics in sports medicine and exercise science. With this leading multidisciplinary journal, exercise physiologists, physiatrists, physical therapists, team physicians, and athletic trainers get a vital exchange of information from basic and applied science, medicine, education, and allied health fields.