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胶原基质重塑过程中对成纤维细胞形态和黏附的调节。

Modulation of fibroblast morphology and adhesion during collagen matrix remodeling.

作者信息

Tamariz Elisa, Grinnell Frederick

机构信息

Department of Cell Biology, University of Texas Southwestern Medical School, Dallas, Texas 75235-9039, USA.

出版信息

Mol Biol Cell. 2002 Nov;13(11):3915-29. doi: 10.1091/mbc.e02-05-0291.

DOI:10.1091/mbc.e02-05-0291
PMID:12429835
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC133603/
Abstract

When fibroblasts are placed within a three-dimensional collagen matrix, cell locomotion results in translocation of the flexible collagen fibrils of the matrix, a remodeling process that has been implicated in matrix morphogenesis during development and wound repair. In the current experiments, we studied formation and maturation of cell-matrix interactions under conditions in which we could distinguish local from global matrix remodeling. Local remodeling was measured by the movement of collagen-embedded beads towards the cells. Global remodeling was measured by matrix contraction. Our observations show that no direct relationship occurs between protrusion and retraction of cell extensions and collagen matrix remodeling. As fibroblasts globally remodel the collagen matrix, however, their overall morphology changes from dendritic to stellate/bipolar, and cell-matrix interactions mature from punctate to focal adhesion organization. The less well organized sites of cell-matrix interaction are sufficient for translocating collagen fibrils, and focal adhesions only form after a high degree of global remodeling occurs in the presence of growth factors. Rho kinase activity is required for maturation of fibroblast morphology and formation of focal adhesions but not for translocation of collagen fibrils.

摘要

当成纤维细胞置于三维胶原基质中时,细胞运动导致基质中柔性胶原纤维的移位,这一重塑过程与发育和伤口修复过程中的基质形态发生有关。在当前实验中,我们研究了在能够区分局部与整体基质重塑的条件下细胞 - 基质相互作用的形成和成熟过程。局部重塑通过胶原包埋珠子向细胞的移动来测量。整体重塑通过基质收缩来测量。我们的观察结果表明,细胞突起和回缩与胶原基质重塑之间不存在直接关系。然而,当成纤维细胞整体重塑胶原基质时,它们的整体形态从树突状变为星状/双极状,并且细胞 - 基质相互作用从点状成熟为粘着斑组织。细胞 - 基质相互作用组织较差的部位足以使胶原纤维移位,并且粘着斑仅在生长因子存在下发生高度整体重塑后形成。Rho激酶活性是成纤维细胞形态成熟和粘着斑形成所必需的,但不是胶原纤维移位所必需的。

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