Implications of exercise training in mtDNA defects--use it or lose it?

Tanja Taivassalo, Ronald G Haller
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引用次数: 56

Abstract

Whether regular exercise is beneficial or should be avoided is a question currently unsettled in patients with heteroplasmic mitochondrial DNA (mtDNA) disorders of skeletal muscle. Deleterious effects of habitual physical inactivity superimposed upon impaired mitochondrial oxidative phosphorylation may contribute to varying degrees of exercise intolerance in these patients. Endurance exercise training is widely known to improve exercise capacity in healthy subjects and various chronic-disease patient populations. Although we have shown that beneficial physiological and biochemical responses to training increase exercise tolerance in patients with mtDNA defects, knowledge of the muscle adaptive response to endurance training within the setting of mitochondrial heteroplasmy remains limited. In order to determine advisability of endurance training as therapy, it remains to be established whether potential endurance training-induced increases in mutant mtDNA levels may be offset by increases in absolute wild-type mtDNA levels, and whether chronic inactivity leads to a selective down-regulation of wild-type mtDNA. Resistance training utilizes a different adaptive exercise approach to induce the transfer of normal mitochondrial templates from satellite cells to mature muscle fibers of patients with sporadic mtDNA disorders. The efficacy and safety of this approach needs to be further established. Our current inability to clearly advise patients to "use it or lose it" underscores the immediate urgency of studying the effects of exercise on skeletal muscle of patients with heteroplasmic mtDNA defects.

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运动训练对mtDNA缺陷的影响——使用它还是失去它?
对于骨骼肌异质线粒体DNA (mtDNA)疾病患者来说,定期运动是否有益或应该避免是一个目前尚未解决的问题。习惯性不运动的有害影响叠加线粒体氧化磷酸化受损可能导致这些患者不同程度的运动不耐受。耐力运动训练被广泛认为可以提高健康人群和各种慢性疾病患者的运动能力。尽管我们已经证明,训练的有益生理和生化反应增加了mtDNA缺陷患者的运动耐量,但在线粒体异质性的背景下,肌肉对耐力训练的适应性反应的知识仍然有限。为了确定耐力训练作为治疗的可行性,耐力训练诱导的突变体mtDNA水平的潜在增加是否可以被绝对野生型mtDNA水平的增加所抵消,以及长期不运动是否会导致野生型mtDNA的选择性下调,这些都有待确定。阻力训练利用一种不同的适应性运动方法,诱导散发性mtDNA疾病患者的正常线粒体模板从卫星细胞转移到成熟肌纤维。这种方法的有效性和安全性有待进一步确定。我们目前无法明确地建议患者“使用它或失去它”,这强调了研究运动对异质mtDNA缺陷患者骨骼肌的影响的紧迫性。
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