完整小鼠肌肉单纤维疲劳过程中最大缩短速度降低的潜在机制。
Mechanisms underlying reduced maximum shortening velocity during fatigue of intact, single fibres of mouse muscle.
作者信息
Westerblad H, Dahlstedt A J, Lännergren J
机构信息
Department of Physiology and Pharmacology, Karolinska Institutet, 171 77 Stockholm, Sweden.
出版信息
J Physiol. 1998 Jul 1;510 ( Pt 1)(Pt 1):269-77. doi: 10.1111/j.1469-7793.1998.269bz.x.
Abstract
- The mechanism behind the reduction in shortening velocity in skeletal muscle fatigue is unclear. In the present study we have measured the maximum shortening velocity (V0) with slack tests during fatigue produced by repeated, 350 ms tetani in intact, single muscle fibres from the mouse. We have focused on two possible mechanisms behind the reduction in V0: reduced tetanic Ca2+ and accumulation of ADP. 2. During fatigue V0 initially declined slowly, reaching 90 % of the control after about forty tetani. The rate of decline then increased and V0 fell to 70 % of the control in an additional twenty tetani. The reduction in isometric force followed a similar pattern. 3. Exposing unfatigued fibres to 10 microM dantrolene, which reduces tetanic Ca2+, lowered force by about 35 % but had no effect on V0. 4. In order to see if ADP might increase rapidly during ongoing contractions, we used a protocol with a tetanus of longer duration bracketed by standard-duration tetani. V0 in these three tetani were not significantly different in control, whereas V0 was markedly lower in the longer tetanus during fatigue and in unfatigued fibres where the creatine kinase reaction was inhibited by 10 microM dinitrofluorobenzene. 5. We conclude that the reduction in V0 during fatigue is mainly due to a transient accumulation of ADP, which develops during contractions in fibres with impaired phosphocreatine energy buffering.
摘要
- 骨骼肌疲劳时缩短速度降低背后的机制尚不清楚。在本研究中,我们在完整的小鼠单根肌纤维中通过重复350毫秒的强直刺激诱导疲劳过程中,利用松弛试验测量了最大缩短速度(V0)。我们聚焦于V0降低背后的两种可能机制:强直刺激时Ca2+减少和ADP积累。2. 在疲劳过程中,V0最初缓慢下降,约40次强直刺激后降至对照值的90%。随后下降速率增加,在额外的20次强直刺激中V0降至对照值的70%。等长力的降低遵循类似模式。3. 将未疲劳的纤维暴露于10微摩尔丹曲林(可减少强直刺激时的Ca2+),可使力降低约35%,但对V0无影响。4. 为了观察在持续收缩过程中ADP是否可能快速增加,我们采用了一种方案,即在标准持续时间的强直刺激前后设置一次持续时间更长的强直刺激。在对照中,这三次强直刺激中的V0无显著差异,而在疲劳期间的较长强直刺激以及肌酸激酶反应被10微摩尔二硝基氟苯抑制的未疲劳纤维中,V0明显更低。5. 我们得出结论,疲劳期间V0的降低主要是由于ADP的短暂积累,这在磷酸肌酸能量缓冲受损的纤维收缩过程中产生。
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