成纤维细胞-胶原基质收缩：生长因子信号传导与机械负荷

Fibroblast-collagen-matrix contraction: growth-factor signalling and mechanical loading.

作者信息

Grinnell F

机构信息

Dept of Cell Biology, UT Southwestern Medical School, Dallas, TX 75235-9039, USA.

出版信息

Trends Cell Biol. 2000 Sep;10(9):362-5. doi: 10.1016/s0962-8924(00)01802-x.

DOI:10.1016/s0962-8924(00)01802-x

PMID:10932093

Abstract

Fibroblast-collagen-matrix contraction provides a unique way to study reciprocal geometric and mechanical interactions between fibroblasts and extracellular matrix. Such interactions are difficult to appreciate or examine in routine cell culture because the culture surface is usually fixed in place. Forces exerted on collagen fibrils by cells cause isometric tension to develop in the cells if the collagen resists deformation; by contrast, the cells remain mechanically unloaded in the absence of matrix resistance. Recent evidence suggests that the state of cellular mechanical loading determines the mechanism that cells use to regulate contraction.

摘要

成纤维细胞-胶原蛋白-基质收缩提供了一种独特的方式来研究成纤维细胞与细胞外基质之间相互的几何和力学相互作用。在常规细胞培养中，这种相互作用很难被认识或研究，因为培养表面通常是固定的。如果胶原蛋白抵抗变形，细胞施加在胶原纤维上的力会使细胞产生等长张力；相反，在没有基质阻力的情况下，细胞保持机械卸载状态。最近的证据表明，细胞机械负荷状态决定了细胞用于调节收缩的机制。

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成纤维细胞-胶原基质收缩：生长因子信号传导与机械负荷

Fibroblast-collagen-matrix contraction: growth-factor signalling and mechanical loading.

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