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神经细胞黏附分子及髓鞘相关糖蛋白与I型胶原的相互作用:参与纤维形成过程

Interactions of the neural cell adhesion molecule and the myelin-associated glycoprotein with collagen type I: involvement in fibrillogenesis.

作者信息

Probstmeier R, Fahrig T, Spiess E, Schachner M

机构信息

Department of Neurobiology, Swiss Federal Institute of Technology Zürich, Switzerland.

出版信息

J Cell Biol. 1992 Feb;116(4):1063-70. doi: 10.1083/jcb.116.4.1063.

DOI:10.1083/jcb.116.4.1063
PMID:1370837
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2289339/
Abstract

To gain insights into the functional role of the molecular association between neural adhesion molecules and extracellular matrix constituents, soluble forms of the myelin-associated glycoprotein (MAG) and the neural cell adhesion molecule (N-CAM), representing most of the extracellular domains of the molecules, were investigated in their ability to modify fibrillogenesis of collagen type I. MAG and N-CAM retarded the rate of fibril formation, as measured by changes in turbidity, and increased the diameter of the fibrils formed, but did not change the banding pattern when compared to collagen type I in the absence of adhesion molecules. Scatchard plot analysis of the binding of MAG and N-CAM to the fibril-forming collagen types I, II, III, and V suggest one binding site for N-CAM and two binding sites for MAG. Binding of MAG, but not of N-CAM, to collagen type I was decreased during fibril formation, probably due to a reduced accessibility of one binding site for MAG during fibrillogenesis. These results indicate that the neural adhesion molecules can influence the configuration of extracellular matrix constituents, thus, implicating them in the modulation of cell-substrate interactions.

摘要

为深入了解神经粘附分子与细胞外基质成分之间分子结合的功能作用,研究了髓鞘相关糖蛋白(MAG)和神经细胞粘附分子(N-CAM)的可溶性形式对I型胶原纤维形成的影响,这两种可溶性形式代表了分子的大部分细胞外结构域。通过浊度变化测量发现,MAG和N-CAM减缓了纤维形成的速率,并增加了所形成纤维的直径,但与不存在粘附分子时的I型胶原相比,并未改变条纹图案。对MAG和N-CAM与形成纤维的I型、II型、III型和V型胶原结合的Scatchard图分析表明,N-CAM有一个结合位点,MAG有两个结合位点。在纤维形成过程中,MAG与I型胶原的结合减少,但N-CAM与I型胶原的结合未减少,这可能是由于在纤维形成过程中MAG的一个结合位点可及性降低所致。这些结果表明,神经粘附分子可影响细胞外基质成分的构型,从而表明它们参与调节细胞与底物的相互作用。

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