Foehring R C, Sypert G W, Munson J B
J Neurophysiol. 1987 Apr;57(4):1210-26. doi: 10.1152/jn.1987.57.4.1210.
This study addresses two questions: is reinnervation of mammalian skeletal muscle selective with respect to motor-unit type? And to what degree may muscle-unit contractile properties be determined by the motoneuron? Properties of individual motor units were examined following cross-reinnervation (X-reinnervation) of lateral gastrocnemius (LG) and soleus muscles by the medial gastrocnemius (MG) nerve in the cat. We examined animals at two postoperative times: 9-10 wk (medX) and 9-11 mo (longX). For comparison, properties of normal LG and soleus motor units were studied. Motor units were classified on the basis of their contractile response as fast contracting fatigable, fast intermediate, fast contracting fatigue resistant, or slow (types FF, FI, FR, or S, respectively) (13,29). Muscle fibers were classified on the basis of histochemical properties as fast glycolytic, fast oxidative glycolytic, or slow oxidative (types FG, FOG, or SO, respectively) (61). Reinnervation of LG and soleus was not selective with respect to motor-unit type. Both muscles were innervated by a full complement of MG motoneuron types, apparently in normal MG proportions. MG motoneurons determined LG muscle fibers' properties to a similar degree as reinnervated MG muscle fibers. In contrast, soleus muscle fibers "resisted" the influence of MG motoneurons. Thus, although longX-reinnervated LG muscle (longX LG) had a motor-unit type distribution similar to normal or self-reinnervated MG, longX soleus contained predominantly type S motor units. Overall mean values for muscle-unit contractile properties reflected this motor-unit type distribution. Muscle units in longX LG and longX soleus had contractile properties typical of the same motor-unit type in normal LG or soleus, respectively. Motor-unit types were recognizable at 10 wk X-reinnervation, although muscle-unit tensions were lower than after 10 mo. The proportions of fast and slow motor units in medX LG were similar to longX LG, although a greater proportion of fast units were resistant to fatigue at 10 wk. There were fewer fast units in medX soleus than longX soleus, which suggested that motor-unit type conversion or innervation of muscle fibers by fast motoneurons is not complete at 10 wk. We conclude that reinnervation of the LG and soleus muscles by MG motoneurons was not selective with respect to motor-unit type. MG motoneurons determined LG muscle properties to a similar degree as self-reinnervated MG muscle fibers. Soleus muscle fibers resisted the influence of MG motoneurons, representing a limit to neural determination of muscle properties.
哺乳动物骨骼肌的再支配在运动单位类型方面是否具有选择性?以及运动神经元在多大程度上可以决定肌肉单位的收缩特性?通过猫的内侧腓肠肌(MG)神经对外侧腓肠肌(LG)和比目鱼肌进行交叉再支配(X-再支配)后,研究了单个运动单位的特性。我们在术后两个时间点检查了动物:9-10周(medX)和9-11个月(longX)。为了进行比较,研究了正常LG和比目鱼肌运动单位的特性。根据收缩反应将运动单位分为快速收缩易疲劳型、快速中间型、快速收缩抗疲劳型或慢速型(分别为FF、FI、FR或S型)(13,29)。根据组织化学特性将肌纤维分为快速糖酵解型、快速氧化糖酵解型或慢速氧化型(分别为FG、FOG或SO型)(61)。LG和比目鱼肌的再支配在运动单位类型方面没有选择性。两条肌肉都由MG运动神经元类型的完整组合支配,显然比例与正常MG相同。MG运动神经元对LG肌纤维特性的决定程度与再支配的MG肌纤维相似。相比之下,比目鱼肌纤维“抵抗”了MG运动神经元的影响。因此,尽管长期X-再支配的LG肌(longX LG)的运动单位类型分布与正常或自我再支配的MG相似,但长期X-再支配的比目鱼肌主要包含S型运动单位。肌肉单位收缩特性的总体平均值反映了这种运动单位类型分布。longX LG和longX比目鱼肌中的肌肉单位分别具有正常LG或比目鱼肌中相同运动单位类型的典型收缩特性。在X-再支配10周时可以识别运动单位类型,尽管肌肉单位张力低于10个月后。medX LG中快速和慢速运动单位的比例与longX LG相似,尽管在10周时更大比例的快速单位抗疲劳。medX比目鱼肌中的快速单位比longX比目鱼肌中的少,这表明在10周时运动单位类型转换或快速运动神经元对肌纤维的支配并不完全。我们得出结论,MG运动神经元对LG和比目鱼肌的再支配在运动单位类型方面没有选择性。MG运动神经元对LG肌肉特性的决定程度与自我再支配的MG肌纤维相似。比目鱼肌纤维抵抗了MG运动神经元的影响,这代表了神经对肌肉特性决定的一个限制。
