MacDermid Victoria E, Neuber-Hess Monica S, Rose P Ken
CIHR Group in Sensory-Motor Systems, Department of Physiology, Queen's University, Kingston, Ontario K7L 3N6, Canada.
J Comp Neurol. 2004 Jan 6;468(2):233-50. doi: 10.1002/cne.10966.
At 8-12 weeks post axotomy, unusual distal processes (UDPs) with axon-like structural (uniform diameter, tortuous) and molecular (growth-associated protein [GAP]43, absence of microtubule-associated protein [MAP]2a/b immunoreactivity) features emerge from distal motoneuron dendrites (Rose et al. [2001] Eur J Neurosci 13:1166-1176). In this study, we determine the time course of molecular and morphological changes associated with the formation of axons from dendrites. Motoneurons innervating neck muscles in the adult cat were permanently axotomized for 2, 4, 20, or 35 weeks and intracellularly stained with Neurobiotin. Computer-assisted reconstructions were used to map the location of MAP2a/b and GAP-43 immunoreactivity. At 2 and 4 weeks post axotomy, all UDPs had short appendages, giving them an arboreal appearance. They were immunoreactive for GAP-43 and lacked immunostaining for MAP2a/b. Axon-like UDPs were not seen until 8-12 weeks post axotomy. By 20 and 35 weeks post axotomy, some axon-like UDPs acquired morphological features of axons with synaptic connections (right-angled branching, bouton-like specializations). GAP-43 immunoreactivity was not detected in any axotomized motoneurons by 20 weeks post axotomy, whereas all UDPs remained devoid of MAP2a/b immunoreactivity even at 35 weeks post axotomy. These molecular changes accompanied structural modifications to proximal regions of "dendrites" giving rise to UDPs. The distance from the ends of the UDPs to the soma did not change. Thus, all UDPs begin as simple, arboreal structures with molecular features of growing axons, but over a period of 35 weeks, some UDPs slowly acquire morphological and molecular features of motoneuron axons with synaptic connections. These results suggest a new modus operandi for axonal growth and the establishment of new synaptic connections after injury.
在轴突切断术后8 - 12周,远端运动神经元树突出现具有轴突样结构(直径均匀、弯曲)和分子特征(生长相关蛋白[GAP]43,无微管相关蛋白[MAP]2a/b免疫反应性)的异常远端突起(UDPs)(Rose等人,[2001]《欧洲神经科学杂志》13:1166 - 1176)。在本研究中,我们确定了与树突形成轴突相关的分子和形态学变化的时间进程。对成年猫支配颈部肌肉的运动神经元进行永久性轴突切断,分别持续2、4、20或35周,并用神经生物素进行细胞内染色。采用计算机辅助重建技术绘制MAP2a/b和GAP - 43免疫反应性的位置。在轴突切断术后2周和4周,所有UDPs都有短的附属物,使其呈现树状外观。它们对GAP - 43呈免疫反应性,对MAP2a/b缺乏免疫染色。直到轴突切断术后8 - 12周才见到轴突样UDPs。到轴突切断术后20周和35周,一些轴突样UDPs获得了具有突触连接的轴突的形态特征(直角分支、纽扣样特化)。轴突切断术后20周,在任何轴突切断的运动神经元中均未检测到GAP - 43免疫反应性,而即使在轴突切断术后35周,所有UDPs仍缺乏MAP2a/b免疫反应性。这些分子变化伴随着产生UDPs的“树突”近端区域的结构改变。UDPs末端到胞体的距离没有变化。因此,所有UDPs最初都是具有生长轴突分子特征的简单树状结构,但在35周的时间里,一些UDPs逐渐获得了具有突触连接的运动神经元轴突的形态和分子特征。这些结果提示了损伤后轴突生长和建立新突触连接的一种新方式。
