Dörries U, Taylor J, Xiao Z, Lochter A, Montag D, Schachner M
Department of Neurobiology, Swiss Federal Institute of Technology, Hönggerberg, Zürich, Switzerland.
J Neurosci Res. 1996 Feb 15;43(4):420-38. doi: 10.1002/(SICI)1097-4547(19960215)43:4<420::AID-JNR4>3.0.CO;2-H.
Using a set of recombinantly expressed proteins, distinct domains of the mouse extracellular matrix glycoprotein tenascin-C, hereafter called tenascin, have been identified to confer adhesion, anti-adhesion, and changes in morphology of neuronal cells. In short-term adhesion assays (1 hr), cerebellar and hippocampal neurons adhered to several domains, encompassing the fibronectin type III-like (FN III) repeats 1-2 and 6-8, as well as to the alternatively spliced FN III repeats and to tenascin itself. Although no short-term adhesion to the EGF repeats containing fragment could be detected under the conditions used, it was anti-adhesive for neuronal cell bodies and repellent for growth cone advance and neuritogenesis. FN III repeats 3-5 were repellent only for growth cones but not for neuronal cell bodies. Neurite outgrowth promoting activities at early stages and induction of a polarized neuronal morphology at later stages of differentiation were associated with the EGF repeats and the FN III repeats 6-8. These observations suggest differential effects of particular domains of the tenascin molecule on distinct cellular compartments, i.e., cell body, axon and dendrite, and existence of multiple neuronal receptors with distinct intracellular signaling features.
利用一组重组表达的蛋白质,已确定小鼠细胞外基质糖蛋白腱生蛋白-C(以下简称腱生蛋白)的不同结构域可赋予神经细胞粘附、抗粘附以及形态变化的特性。在短期粘附试验(1小时)中,小脑和海马神经元粘附于几个结构域,包括纤连蛋白III样(FN III)重复序列1-2和6-8,以及可变剪接的FN III重复序列和腱生蛋白本身。尽管在所使用的条件下未检测到对含EGF重复序列片段的短期粘附,但它对神经细胞体具有抗粘附作用,对生长锥前进和神经突发生具有排斥作用。FN III重复序列3-5仅对生长锥有排斥作用,而对神经细胞体无此作用。在分化早期的神经突生长促进活性以及在分化后期诱导极化的神经元形态与EGF重复序列和FN III重复序列6-8相关。这些观察结果表明腱生蛋白分子的特定结构域对不同细胞区室(即细胞体、轴突和树突)具有不同的作用,并且存在具有不同细胞内信号特征的多种神经受体。
