神经细胞黏附分子介导培养的脊髓神经元与肌肉细胞之间的初始相互作用。
Neural cell adhesion molecule mediates initial interactions between spinal cord neurons and muscle cells in culture.
作者信息
Rutishauser U, Grumet M, Edelman G M
出版信息
J Cell Biol. 1983 Jul;97(1):145-52. doi: 10.1083/jcb.97.1.145.
Abstract
Previous studies in this laboratory have described a cell surface glycoprotein, called neural cell adhesion molecule or N-CAM, that appears to be a ligand in the adhesion between neural membranes. N-CAM antigenic determinants were also shown to be present on embryonic muscle and an N-CAM-dependent adhesion was demonstrated between retinal cell membranes and muscle cells in short-term assays. The present studies indicate that these antigenic determinants are associated with the N-CAM polypeptide, and that rapid adhesion mediated by this molecule occurs between spinal cord membranes and muscle cells. Detailed examination of the effects of anti-(N-CAM) Fab' fragments in cultures of spinal cord with skeletal muscle showed that the Fab' fragments specifically block adhesion of spinal cord neurites and cells to myotubes. The Fab' did not affect binding of neurites to fibroblasts and collagen substrate, and did not alter myotube morphology. These results indicate that N-CAM adhesion is essential for the in vitro establishment of physical associations between nerve and muscle, and suggest that binding involving N-CAM may be an important early step in synaptogenesis.
摘要
本实验室先前的研究描述了一种细胞表面糖蛋白,称为神经细胞黏附分子或N-CAM,它似乎是神经膜之间黏附中的一种配体。N-CAM抗原决定簇也显示存在于胚胎肌肉上,并且在短期试验中证明了视网膜细胞膜与肌肉细胞之间存在N-CAM依赖性黏附。目前的研究表明,这些抗原决定簇与N-CAM多肽相关,并且该分子介导的快速黏附发生在脊髓膜与肌肉细胞之间。在用骨骼肌培养的脊髓中对抗(N-CAM)Fab'片段的作用进行的详细检查表明,Fab'片段特异性地阻断了脊髓神经突和细胞与肌管的黏附。Fab'不影响神经突与成纤维细胞和胶原底物的结合,也不改变肌管形态。这些结果表明,N-CAM黏附对于神经与肌肉之间体外物理联系的建立至关重要,并表明涉及N-CAM的结合可能是突触形成中的一个重要早期步骤。
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