Tang J, Rutishauser U, Landmesser L
Department of Physiology and Neurobiology, University of Connecticut Storrs 06269-3042.
Neuron. 1994 Aug;13(2):405-14. doi: 10.1016/0896-6273(94)90356-5.
Removal of polysialic acid (PSA) from N-CAM during the time when chick motoneuron axons are segregating into target-specific fascicles at the base of the limb was previously shown to result in motoneuron projection errors. Here, it is established that these errors are associated with altered growth cone behavior in the plexus. In contrast to control embryos, in which individual axons were observed to exhibit dramatic changes in direction and extensive divergence, axonal trajectories following the removal of PSA were relatively straight. To determine whether enhanced axon-axon fasciculation following PSA removal had prevented growth cones from responding appropriately to guidance cues at the base of the limb, we also examined the role of L1, a major mediator of axon-axon fasciculation in this system. Anti-L1 reversed the effects of PSA removal on both growth cone trajectories and projection errors. These results indicate that PSA plays a permissive role, attenuating axon-axon interactions in the plexus and thereby allowing the axonal reorganization that is essential for the formation of specific motoneuron projections.
先前的研究表明,在鸡运动神经元轴突在肢体基部向靶标特异性束状结构分离的时期,去除N - 细胞黏附分子(N-CAM)上的多唾液酸(PSA)会导致运动神经元投射错误。在此研究中确定,这些错误与神经丛中生长锥行为的改变有关。与对照胚胎不同,在对照胚胎中观察到单个轴突表现出方向上的剧烈变化和广泛发散,而去除PSA后的轴突轨迹相对笔直。为了确定去除PSA后增强的轴突 - 轴突束状化是否阻止了生长锥对肢体基部引导信号的适当反应,我们还研究了L1在该系统中的作用,L1是轴突 - 轴突束状化的主要介导因子。抗L1抗体逆转了去除PSA对生长锥轨迹和投射错误的影响。这些结果表明,PSA起允许作用,减弱神经丛中轴突 - 轴突相互作用,从而允许轴突重组,这对于形成特定的运动神经元投射至关重要。