Dum R P, O'Donovan M J, Toop J, Tsairis P, Pinter M J, Burke R E
J Neurophysiol. 1985 Oct;54(4):837-51. doi: 10.1152/jn.1985.54.4.837.
The properties of whole soleus (SOL) muscles and of individual motor units were studied in cats 30-50 wk after self-reinnervation by soleus (SOL) motoneurons (SOL----SOL) or cross-reinnervation by flexor digitorum longus (FDL) motoneurons (FDL----SOL). As in the preceding paper (22), intracellular and glycogen-depletion methods were used to examine the physiological and histochemical properties of individual motor units. The results were compared with data from normal SOL motor units (8, 12). Intentionally self-reinnervated SOL muscles (SOL----SOL; n = 6) were normal in size and wet weight, and all of the five SOL----SOL motor units studied had physiological and histochemical characteristics that matched those of normal SOL units. Cross-reinnervation of SOL by FDL alpha-motoneurons (FDL----SOL; n = 7) produced muscles with wet weights and appearance essentially identical to normal SOL. However, whole-muscle twitch contraction times were much shorter (mean 60.4 ms) than those of normal (mean 136.9 ms, n = 18) or SOL----SOL muscles (mean 115.3 ms; n = 6). Despite this difference, none of the FDL----SOL muscles contained more than 7% histochemical type II muscle fibers, all of which were type IIA. Normal cat SOL muscles can contain up to 5% type IIA fibers, but none of our SOL----SOL muscles showed any type II fibers. Two FDL----SOL muscles had significant amounts of unintended self-reinnervation, permitting side-by-side comparison of FDL----SOL and SOL----SOL muscle fibers. The twitch contraction times of the two populations differed markedly, but they were histochemically indistinguishable except for the fact that SOL----SOL fibers had high neutral fat content (as do normal SOL fibers), whereas FDL----SOL showed much lower fat content. The 23 FDL----SOL muscle units studied were classified as physiological type S by criteria ("sag" test and fatigue resistance) used to identify motor-unit types in normal cat muscles. All five of the FDL----SOL units studied histochemically after glycogen depletion showed the type I histochemical profile, which is characteristic of the normal cat SOL. In marked contrast to the preceding study, cross-reinnervation of cat SOL by FDL motoneurons produced no conversion of muscle-unit properties into those associated with fast-twitch unit types, despite significant decreases in isometric twitch contraction time. The altered twitch speed was not associated with evident changes in conventional myofibrillar adenosine triphosphatase (ATPase) histochemistry.(ABSTRACT TRUNCATED AT 400 WORDS)
在比目鱼肌(SOL)运动神经元自我重新支配(SOL→SOL)或由趾长屈肌(FDL)运动神经元交叉支配(FDL→SOL)30 - 50周后的猫身上,研究了整块比目鱼肌(SOL)和单个运动单位的特性。如前文(22)所述,采用细胞内和糖原耗竭方法来检测单个运动单位的生理和组织化学特性。将结果与正常SOL运动单位的数据(8, 12)进行比较。有意自我重新支配的SOL肌肉(SOL→SOL;n = 6)在大小和湿重方面正常,所研究的5个SOL→SOL运动单位的生理和组织化学特征与正常SOL单位相匹配。FDLα运动神经元对SOL的交叉支配(FDL→SOL;n = 7)产生的肌肉,其湿重和外观与正常SOL基本相同。然而,整块肌肉的抽搐收缩时间比正常肌肉(平均136.9毫秒,n = 18)或SOL→SOL肌肉(平均115.3毫秒;n = 6)短得多(平均60.4毫秒)。尽管存在这种差异,但FDL→SOL肌肉中组织化学II型肌纤维含量均不超过7%,且均为IIA型。正常猫的SOL肌肉中IIA型纤维含量可达5%,但我们的SOL→SOL肌肉均未显示出任何II型纤维。两块FDL→SOL肌肉存在大量意外的自我重新支配,从而能够对FDL→SOL和SOL→SOL肌纤维进行并排比较。这两种肌纤维群体的抽搐收缩时间差异显著,但在组织化学上难以区分,只是SOL→SOL纤维的中性脂肪含量较高(与正常SOL纤维一样),而FDL→SOL的脂肪含量低得多。根据用于识别正常猫肌肉中运动单位类型的标准(“下垂”试验和抗疲劳能力),所研究的23个FDL→SOL肌肉单位被归类为生理S型。糖原耗竭后组织化学研究的所有5个FDL→SOL单位均显示出I型组织化学特征,这是正常猫SOL的特征。与之前的研究形成显著对比的是,FDL运动神经元对猫SOL的交叉支配并未使肌肉单位特性转变为与快肌纤维类型相关的特性,尽管等长抽搐收缩时间显著缩短。抽搐速度的改变与传统肌原纤维三磷酸腺苷酶(ATP酶)组织化学的明显变化无关。(摘要截断于400字)
