纤连蛋白在原代鸡成纤维细胞的移动和锚定中具有双重作用,并且可以促进其进入分裂周期。
Fibronectin has a dual role in locomotion and anchorage of primary chick fibroblasts and can promote entry into the division cycle.
作者信息
Couchman J R, Rees D A, Green M R, Smith C G
出版信息
J Cell Biol. 1982 May;93(2):402-10. doi: 10.1083/jcb.93.2.402.
Abstract
Fibronectin (FN), which is already known to be a natural factor for fibroblast spreading on substrata, has now been shown to be essential for two distinct types of adhesion with different biological functions in chick heart fibroblasts, namely adhesion directed toward locomotion and toward stationary anchorage for growth. Manipulation of culture conditions and the use of antisera of differing specificities has demonstrated that both exogenous and cell-derived FN are important in each process. The organization of the fibronectin-containing matrix differs between the two states. Immunoelectron microscopy with a colloidal gold marker reveals the presence of small membrane-associated plaques of fibronectin in motile cells with associated submembranous specialization. A fibrillar matrix containing fibronectin is dominant in nonmotile, growing fibroblasts. The development of focal adhesions for stationary anchorage can be dramatically enhanced by addition of cell-derived FN at an appropriate stage, and this promotes entry into the growth cycle. New macromolecular synthesis in addition to FN is necessary for focal adhesion development but not for locomotion.
摘要
纤连蛋白(FN),已知其是成纤维细胞在基质上铺展的天然因子,现已证明它对于鸡心脏成纤维细胞中两种具有不同生物学功能的独特黏附类型至关重要,即针对运动的黏附和针对生长的固定锚定黏附。对培养条件的操控以及使用不同特异性的抗血清已表明,外源性和细胞源性FN在每个过程中都很重要。含纤连蛋白的基质在两种状态下有所不同。用胶体金标记的免疫电子显微镜显示,在具有相关膜下特化的运动细胞中存在与膜相关的小纤连蛋白斑块。含纤连蛋白的纤维状基质在不运动的生长成纤维细胞中占主导地位。在适当阶段添加细胞源性FN可显著增强用于固定锚定的黏着斑的形成,这促进细胞进入生长周期。除了FN之外的新大分子合成对于黏着斑的形成是必需的,但对于运动则不是。
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9
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