发育后肌肉生长抑制素耗竭后小鼠的握力、EDL 收缩性能和自愿轮跑。
Grip force, EDL contractile properties, and voluntary wheel running after postdevelopmental myostatin depletion in mice.
机构信息
Department of Rehabilitation Science, University at Buffalo, Buffalo, NY, USA.
出版信息
J Appl Physiol (1985). 2010 Sep;109(3):886-94. doi: 10.1152/japplphysiol.00300.2010. Epub 2010 Jul 1.
There is no consensus about whether making muscles abnormally large by reducing myostatin activity affects force-generating capacity or the ability to perform activities requiring muscular endurance. We therefore examined grip force, contractile properties of extensor digitorum longus (EDL) muscles, and voluntary wheel running in mice in which myostatin was depleted after normal muscle development. Cre recombinase activity was induced to knock out exon 3 of the myostatin gene in 4-mo-old mice in which this exon was flanked by loxP sequences (Mstn[f/f]). Control mice with normal myostatin genes (Mstn[w/w]) received the same Cre-activating treatment. Myostatin depletion increased the mass of all muscles that were examined (gastrocnemius, quadriceps, tibialis anterior, EDL, soleus, triceps) by approximately 20-40%. Grip force, measured multiple times 2-22 wk after myostatin knockout, was not consistently greater in the myostatin-deficient mice. EDL contractile properties were determined 7-13 mo after myostatin knockout. Twitch force tended to be greater in myostatin-deficient muscles (+24%; P=0.09), whereas tetanic force was not consistently elevated (mean +11%; P=0.36), even though EDL mass was greater than normal in all myostatin-deficient mice (mean +36%; P<0.001). The force deficit induced by eccentric contractions was approximately twofold greater in myostatin-deficient than in normal EDL muscles (31% vs. 16% after five eccentric contractions; P=0.02). Myostatin-deficient mice ran 19% less distance (P<0.01) than control mice during the 12 wk following myostatin depletion, primarily because of fewer running bouts per night rather than diminished running speed or bout duration. Reduced specific tension (ratio of force to mass) and reduced running have been observed after muscle hypertrophy was induced by other means, suggesting that they are characteristics generally associated with abnormally large muscles rather than unique effects of myostatin deficiency.
目前,关于通过减少肌肉生长抑制素(myostatin)的活性使肌肉异常增大是否会影响产生力量的能力或进行需要肌肉耐力的活动的能力,尚无定论。因此,我们研究了在正常肌肉发育后肌肉生长抑制素耗尽的小鼠中,握力、伸趾长肌(extensor digitorum longus,EDL)肌肉的收缩特性以及自愿轮跑的情况。在 4 月龄的小鼠中,通过 Cre 重组酶活性诱导loxP 序列侧翼的第 3 外显子缺失肌肉生长抑制素基因(Mstn[f/f])。具有正常肌肉生长抑制素基因(Mstn[w/w])的对照小鼠接受相同的 Cre 激活处理。肌肉生长抑制素缺失使所有检查的肌肉(比目鱼肌、股四头肌、胫骨前肌、EDL、跖肌、三头肌)的质量增加约 20-40%。在肌肉生长抑制素缺失的小鼠中,多次测量 2-22 周后的握力并没有一致增加。在肌肉生长抑制素缺失 7-13 个月后测定 EDL 的收缩特性。在肌肉生长抑制素缺失的肌肉中,抽搐力趋于更大(+24%;P=0.09),而强直力并未持续升高(平均+11%;P=0.36),尽管所有肌肉生长抑制素缺失的小鼠 EDL 质量均大于正常(平均+36%;P<0.001)。在肌肉生长抑制素缺失的 EDL 肌肉中,与正常 EDL 肌肉相比,离心收缩引起的力缺陷大约大两倍(五次离心收缩后分别为 31%和 16%;P=0.02)。在肌肉生长抑制素缺失后 12 周内,肌肉生长抑制素缺失的小鼠比对照小鼠的跑步距离少 19%(P<0.01),主要是因为夜间的跑步次数减少,而不是跑步速度或跑步时间减少。通过其他方法诱导肌肉肥大后,观察到比张力降低(力与质量的比值)和跑步减少,这表明它们是通常与异常大肌肉相关的特征,而不是肌肉生长抑制素缺失的特有影响。
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