优秀自行车运动员的线粒体基因表达：高强度间歇训练的影响。

Mitochondrial gene expression in elite cyclists: effects of high-intensity interval exercise.

机构信息

Astrand Laboratory, GIH, The Swedish School of Sport and Health Sciences, Box 5626, SE 114 86 Stockholm, Sweden.

出版信息

Eur J Appl Physiol. 2010 Oct;110(3):597-606. doi: 10.1007/s00421-010-1544-1. Epub 2010 Jun 23.

PMID:20571821

Abstract

Little is known about the effect of training on genetic markers for mitochondrial biogenesis in elite athletes. We tested the hypothesis that low-volume sprint interval exercise (SIE) would be as effective as high-volume interval exercise (IE). Ten male cyclists competing on national elite level (W (max) 403 ± 13 W, VO(2peak) 68 ± 1 mL kg(-1) min(-1)) performed two interval exercise protocols: 7 × 30-s "all-out" bouts (SIE) and 3 × 20-min bouts at ~87% of VO(2peak) (IE). During IE, the work was eightfold larger (1,095 ± 43 vs. 135 ± 5 kJ) and the exercise duration 17 times longer (60 vs. 3.5 min) than during SIE. Muscle samples were taken before and 3 h after exercise. The mRNA of upstream markers of mitochondrial biogenesis [peroxisome proliferator-activated receptor-γ coactivator-1 (PGC-1α), PGC-1α-related coactivator (PRC) and peroxisome proliferator-activated receptor δ (PPARδ)] increased to the same extent after SIE and IE (6-, 1.5- and 1.5-fold increase, respectively). Of the downstream targets of PGC-1α, mitochondrial transcription factor A (Tfam) increased only after SIE and was significantly different from that after IE (P < 0.05), whereas others increased to the same extent (pyruvate dehydrogenase kinase, PDK4) or was unchanged (nuclear respiratory factor 2, NRF2). We conclude that upstream genetic markers of mitochondrial biogenesis increase in a similar way in elite athletes after one exercise session of SIE and IE. However, since the volume and duration of work was considerably lower during SIE and since Tfam, the downstream target of PGC-1α, increased only after SIE, we conclude that SIE might be a time-efficient training strategy for highly trained individuals.

摘要

关于训练对精英运动员线粒体生物发生的遗传标志物的影响知之甚少。我们检验了一个假设，即低容量冲刺间歇训练（SIE）与高容量间歇训练（IE）一样有效。10 名参加国家级精英水平比赛的男性自行车运动员（W（max）为 403 ± 13 W，VO（2peak）为 68 ± 1 mL kg（-1）min（-1））进行了两种间歇训练方案：7 × 30-s“全力以赴”回合（SIE）和 3 × 20-min 回合，约为 VO（2peak）的 87%（IE）。在 IE 中，工作量是 SIE 的 8 倍（1095 ± 43 与 135 ± 5 kJ），运动持续时间是 SIE 的 17 倍（60 与 3.5 min）。在运动前后采集肌肉样本。线粒体生物发生的上游标志物（过氧化物酶体增殖物激活受体-γ 共激活因子-1（PGC-1α）、PGC-1α 相关共激活因子（PRC）和过氧化物酶体增殖物激活受体 δ（PPARδ））的 mRNA 在 SIE 和 IE 后增加到相同程度（分别增加 6 倍、1.5 倍和 1.5 倍）。PGC-1α 的下游靶标中，线粒体转录因子 A（Tfam）仅在 SIE 后增加，与 IE 后显著不同（P < 0.05），而其他靶标增加到相同程度（丙酮酸脱氢酶激酶，PDK4）或不变（核呼吸因子 2，NRF2）。我们得出结论，在一次 SIE 和 IE 运动后，精英运动员的线粒体生物发生的上游遗传标志物以相似的方式增加。然而，由于 SIE 的工作量和持续时间明显较低，并且只有在 SIE 后 PGC-1α 的下游靶标 Tfam 增加，我们得出结论，SIE 可能是一种高效的训练策略，适用于高度训练的个体。

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优秀自行车运动员的线粒体基因表达：高强度间歇训练的影响。

Mitochondrial gene expression in elite cyclists: effects of high-intensity interval exercise.

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