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细胞黏附分子NgCAM和轴突素-1在神经元膜中形成异二聚体，并协同促进神经突生长。

Cell adhesion molecules NgCAM and axonin-1 form heterodimers in the neuronal membrane and cooperate in neurite outgrowth promotion.

作者信息

Buchstaller A, Kunz S, Berger P, Kunz B, Ziegler U, Rader C, Sonderegger P

机构信息

Institute of Biochemistry, University of Zurich, Switzerland.

出版信息

J Cell Biol. 1996 Dec;135(6 Pt 1):1593-607. doi: 10.1083/jcb.135.6.1593.

DOI:10.1083/jcb.135.6.1593

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2133975/

Abstract

The axonal surface glycoproteins neuronglia cell adhesion molecule (NgCAM) and axonin-1 promote cell-cell adhesion, neurite outgrowth and fasciculation, and are involved in growth cone guidance. A direct binding between NgCAM and axonin-1 has been demonstrated using isolated molecules conjugated to the surface of fluorescent microspheres. By expressing NgCAM and axonin-1 in myeloma cells and performing cell aggregation assays, we found that NgCAM and axonin-1 cannot bind when present on the surface of different cells. In contrast, the cocapping of axonin-1 upon antibody-induced capping of NgCAM on the surface of CV-1 cells coexpressing NgCAM and axonin-1 and the selective chemical cross-linking of the two molecules in low density cultures of dorsal root ganglia neurons indicated a specific and direct binding of axonin-1 and Ng-CAM in the plane of the same membrane. Suppression of the axonin-1 translation by antisense oligonucleotides prevented neurite outgrowth in dissociated dorsal root ganglia neurons cultured on an NgCAM substratum, indicating that neurite outgrowth on NgCAM substratum requires axonin-1. Based on these and previous results, which implicated NgCAM as the neuronal receptor involved in neurite outgrowth on NgCAM substratum, we concluded that neurite outgrowth on an NgCAM substratum depends on two essential interactions of growth cone NgCAM: a trans-interaction with substratum NgCAM and a cis-interaction with axonin-1 residing in the same growth cone membrane.

摘要

轴突表面糖蛋白神经胶质细胞黏附分子（NgCAM）和轴突素-1可促进细胞间黏附、神经突生长和束状化，并参与生长锥导向。使用与荧光微球表面偶联的分离分子已证明NgCAM和轴突素-1之间存在直接结合。通过在骨髓瘤细胞中表达NgCAM和轴突素-1并进行细胞聚集试验，我们发现当NgCAM和轴突素-1存在于不同细胞表面时不能结合。相反，在共表达NgCAM和轴突素-1的CV-1细胞表面，抗体诱导的NgCAM封帽会导致轴突素-1的共封帽，以及在背根神经节神经元低密度培养物中这两种分子的选择性化学交联，表明轴突素-1和Ng-CAM在同一膜平面上存在特异性直接结合。反义寡核苷酸抑制轴突素-1的翻译可阻止在NgCAM基质上培养的解离背根神经节神经元的神经突生长，这表明在NgCAM基质上的神经突生长需要轴突素-1。基于这些以及之前将NgCAM视为参与在NgCAM基质上神经突生长的神经元受体的结果，我们得出结论，在NgCAM基质上的神经突生长取决于生长锥NgCAM的两种基本相互作用：与基质NgCAM的反式相互作用以及与位于同一生长锥膜中的轴突素-1的顺式相互作用。