肌肉活动维持运动神经元特性的证据。
Evidence for the maintenance of motoneurone properties by muscle activity.
作者信息
Czéh G, Gallego R, Kudo N, Kuno M
出版信息
J Physiol. 1978 Aug;281:239-52. doi: 10.1113/jphysiol.1978.sp012419.
Abstract
- Electrophysiological properties of soleus motoneurones in adult cats were examined with intracellular electrodes following alterations of activity of the soleus muscle induced by transection of the thoracic spinal cord or by conduction block of the muscle nerve with tetrodotoxin (TTX) cuffs. Attempts were also made to maintain muscle activity by daily stimulation of the maintain muscle activity by daily stimulation of the peripheral nerve. 2. Within 8 days after transection of the thoracic cord, soleus motoneurones showed a significant decrease in the duration of afterhyperpolarization following action potentials. This change in motoneurone properties induced by cord transection was prevented by daily stimulation of the sciatic nerve. 3. Soleus motoneurones showed a significant decrease in the duration of after-hyperpolarization within 8 days after conduction block of the soleus nerve with TTX. This change in montoneurone properties was prevented by daily stimulation of the nerve peripheral to the TTX cuff but not central to the cuff. 4. The soleus muscle showed a significant decrease in weight relative to body weight within 8 days after transection of the thoracic cord. This decrease in muscle weight following cord transection was prevented by daily stimulation of the sciatic nerve. 5. No fibrillation was detected in the soleus muscle 8 days after conduction block of the soleus nerve with TTX. The maximum twitch tension of the soleus muscle evoked by nerve stimulation showed no significant difference between the two sides treated and untreated with TTX. Fast axoplasmic transport measured with cholinesterase as a marker was not affected by TTX. Thus, there was no sign of functional although morphological abnormalities were found in some nerve fibres. 6. It is concluded that motoneurone properties in an adult depend partly upon some factors associated with activity of the innervated muscles and that such trophic signals are retrogradely carried by the motor axons.
摘要
- 在成年猫中,通过胸段脊髓横断或用河豚毒素(TTX)袖套阻断肌肉神经传导来改变比目鱼肌的活动后,用细胞内电极检测比目鱼肌运动神经元的电生理特性。还尝试通过每日刺激周围神经来维持肌肉活动。2. 在胸段脊髓横断后8天内,比目鱼肌运动神经元动作电位后的超极化持续时间显著缩短。脊髓横断引起的运动神经元特性变化可通过每日刺激坐骨神经来预防。3. 用TTX阻断比目鱼肌神经传导后8天内,比目鱼肌运动神经元的超极化后持续时间显著缩短。运动神经元特性的这种变化可通过每日刺激TTX袖套外周的神经来预防,但不能通过刺激袖套中枢的神经来预防。4. 在胸段脊髓横断后8天内,比目鱼肌相对于体重显著减轻。脊髓横断后肌肉重量的减轻可通过每日刺激坐骨神经来预防。5. 用TTX阻断比目鱼肌神经传导8天后,比目鱼肌未检测到纤维性颤动。神经刺激诱发的比目鱼肌最大抽搐张力在TTX处理和未处理的两侧之间无显著差异。以胆碱酯酶为标志物测量的快速轴浆运输不受TTX影响。因此,尽管在一些神经纤维中发现了形态学异常,但没有功能异常的迹象。6. 得出的结论是,成年动物的运动神经元特性部分取决于与所支配肌肉活动相关的一些因素,并且这种营养信号由运动轴突逆行携带。
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本文引用的文献
1
Vomiting, hypothermia, and respiratory paralysis due to tetrodotoxin (puffer fish poison) in the cat.猫因河豚毒素(河豚毒)导致的呕吐、体温过低和呼吸麻痹。
Toxicol Appl Pharmacol. 1963 May;5:350-7. doi: 10.1016/0041-008x(63)90094-2.
2
An experimental study on the relationships between limb and spinal cord in the embryo of Eleutherodactylus martinicensis.
J Embryol Exp Morphol. 1962 Dec;10:575-601.
3
A new and rapid colorimetric determination of acetylcholinesterase activity.一种新的快速比色法测定乙酰胆碱酯酶活性。
Biochem Pharmacol. 1961 Jul;7:88-95. doi: 10.1016/0006-2952(61)90145-9.
4
Cell degeneration in the larval ventral horn of Xenopus laevis (Daudin).非洲爪蟾(达丁)幼体腹角中的细胞退化。
J Embryol Exp Morphol. 1961 Jun;9:269-84.
5
Regression versus peripheral control of differentiation in motor hypoplasia.运动发育不全中分化的回归与外周控制
Am J Anat. 1958 May;102(3):365-409. doi: 10.1002/aja.1001020303.
6
Differentiation of tonic from phasic alpha ventral horn cells by stretch, pinna and crossed extensor reflexes.通过牵张、耳廓和交叉伸肌反射区分紧张性与位相性α腹角细胞。
J Neurophysiol. 1957 Sep;20(5):470-81. doi: 10.1152/jn.1957.20.5.470.
7
Tonic and phasic ventral horn cells differentiated by post-tetanic potentiation in cat extensors.通过强直后增强在猫伸肌中区分出的紧张性和位相性腹角细胞。
Acta Physiol Scand. 1956 Sep 26;37(2-3):114-26. doi: 10.1111/j.1748-1716.1956.tb01347.x.
8
Collateral nerve regeneration.侧支神经再生
Q Rev Biol. 1953 Sep;28(3):260-76. doi: 10.1086/399699.
9
Long-term, continuous electrostimulation of a peripheral nerve.外周神经的长期持续电刺激。
Trans Am Soc Artif Intern Organs. 1964;10:357-65.
10
The influence of activity on some contractile characteristics of mammalian fast and slow muscles.活动对哺乳动物快肌和慢肌某些收缩特性的影响。
J Physiol. 1969 May;201(3):535-49. doi: 10.1113/jphysiol.1969.sp008771.
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