去神经支配和电刺激大鼠肌肉的从快到慢的转变
Fast to slow transformation of denervated and electrically stimulated rat muscle.
作者信息
Windisch A, Gundersen K, Szabolcs M J, Gruber H, Lømo T
机构信息
Institute for Anatomy, University of Vienna, Austria.
出版信息
J Physiol. 1998 Jul 15;510 ( Pt 2)(Pt 2):623-32. doi: 10.1111/j.1469-7793.1998.623bk.x.
Abstract
- Denervated fast extensor digitorum longus (EDL) muscles of adult rats were stimulated electrically for up to 4 months with a slow pattern resembling the activity in soleus (Sol) motor units and examined with antibodies against myosin heavy chains (MHCs). 2. The normal EDL contained, on average, 45% type IIB, 29% type IIX, 23% type IIA and 3% type I fibres. All type IIB and almost all type IIX fibres disappeared during the first 3 weeks of stimulation. They were replaced by type IIA and type I fibres, whose percentages increased to about 75 and 15, respectively. Type IIA fibres remained at 75% for nearly 2 months and were then gradually replaced by type I fibres during the next 2 months. The transformation occurred sequentially in the order IIB/IIX-->IIA-->I, the first step (IIB/IIX-->IIA) occurring after a short delay (2 weeks) and the last step (IIA-->I in originally IIB or IIX fibres) after a long delay (> 2 months). During the transformation coexpression of MHCs occurred. 3. It appears that the transformation to type I fibres occurred in pre-existing type II fibres since no signs of fibre damage or regeneration were observed. 4. Normal EDL was also stimulated through an intact nerve with the same pattern for up to 37 days. The effects on fibre type distributions were identical to those observed in the denervated EDL. The result indicated that the Sol-like pattern of evoked muscle activity, rather than nerve-derived trophic influences or denervation per se, was primarily responsible for the fast to slow transformation.
摘要
- 对成年大鼠失神经支配的快肌趾长伸肌(EDL)进行电刺激,刺激模式类似于比目鱼肌(Sol)运动单位的活动,持续长达4个月,并用抗肌球蛋白重链(MHC)抗体进行检测。2. 正常EDL平均含有45%的IIB型、29%的IIX型、23%的IIA型和3%的I型纤维。在刺激的前3周内,所有IIB型和几乎所有IIX型纤维消失。它们被IIA型和I型纤维取代,其百分比分别增加到约75%和15%。IIA型纤维在近2个月内保持在75%,然后在接下来的2个月内逐渐被I型纤维取代。这种转变按IIB/IIX→IIA→I的顺序依次发生,第一步(IIB/IIX→IIA)在短暂延迟(2周)后发生,最后一步(原本IIB或IIX纤维中的IIA→I)在长时间延迟(>2个月)后发生。在转变过程中发生了MHC的共表达。3. 由于未观察到纤维损伤或再生的迹象,似乎向I型纤维的转变发生在预先存在的II型纤维中。4. 正常EDL也通过完整的神经以相同模式刺激长达37天。对纤维类型分布的影响与在失神经支配的EDL中观察到的相同。结果表明,诱发肌肉活动的比目鱼肌样模式,而不是神经源性营养影响或失神经支配本身,是快速到慢速转变的主要原因。
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