Collins Malcolm, Renault Valerie, Grobler Liesl A, St Clair Gibson Alan, Lambert Michael I, Wayne Derman E, Butler-Browne Gillian S, Noakes Timothy D, Mouly Vincent
Department of Human Biology, University of Cape Town, South Africa.
Med Sci Sports Exerc. 2003 Sep;35(9):1524-8. doi: 10.1249/01.MSS.0000084522.14168.49.
INTRODUCTION/PURPOSE: Although the beneficial health effects of regular moderate exercise are well established, there is substantial evidence that the heavy training and racing carried out by endurance athletes can cause skeletal muscle damage. This damage is repaired by satellite cells that can undergo a finite number of cell divisions. In this study, we have compared a marker of skeletal muscle regeneration of athletes with exercise-associated chronic fatigue, a condition labeled the "fatigued athlete myopathic syndrome" (FAMS), with healthy asymptomatic age- and mileage-matched control endurance athletes.
Muscle biopsies of the vastus lateralis were obtained from 13 patients diagnosed with FAMS and from 13 healthy control subjects. DNA was extracted from the muscle samples and their telomeric restriction fragment (TRF) or telomere lengths were measured by Southern blot analysis.
All 13 symptomatic athletes reported a progressive decline in athletic performance, decreased ability to tolerate high mileage training, and excessive muscular fatigue during exercise. The minimum value of TRF lengths (4.0 +/- 1.8 kb) measured on the DNA from vastus lateralis biopsies from these athletes were significantly shorter than those from 13 age- and mileage-matched control athletes (5.4 +/- 0.6 kb, P < 0.05). Three of the FAMS patients had extremely short telomeres (1.0 +/- 0.3 kb). The minimum TRF lengths of the remaining 10 symptomatic athletes (4.9 +/- 0.5 kb, P < 0.05) were also significantly shorter that those of the control athletes.
These findings suggest that skeletal muscle from symptomatic athletes with FAMS show extensive regeneration which most probably results from more frequent bouts of satellite cell proliferation in response to recurrent training- and racing-induced muscle injury.
引言/目的:尽管定期适度运动对健康有益已得到充分证实,但有大量证据表明,耐力运动员进行的高强度训练和比赛会导致骨骼肌损伤。这种损伤由卫星细胞修复,而卫星细胞的细胞分裂次数有限。在本研究中,我们比较了患有与运动相关慢性疲劳(一种被称为“疲劳运动员肌病综合征”[FAMS])的运动员与年龄和里程数匹配的健康无症状耐力运动员的骨骼肌再生标志物。
从13名被诊断为FAMS的患者和13名健康对照受试者身上获取股外侧肌活检样本。从肌肉样本中提取DNA,并通过Southern印迹分析测量其端粒限制片段(TRF)或端粒长度。
所有13名有症状的运动员均报告运动成绩逐渐下降、耐受高里程训练的能力下降以及运动期间肌肉过度疲劳。这些运动员股外侧肌活检样本DNA上测得的TRF长度最小值(4.0±1.8 kb)明显短于13名年龄和里程数匹配的对照运动员(5.4±0.6 kb,P<0.05)。3名FAMS患者的端粒极短(长度为1.0±0.3 kb)。其余10名有症状运动员的TRF长度最小值(4.9±0.5 kb,P < 0.05)也明显短于对照运动员。
这些发现表明,患有FAMS的有症状运动员的骨骼肌显示出广泛的再生,这很可能是由于卫星细胞因反复的训练和比赛引起的肌肉损伤而更频繁地增殖所致。
