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Fibronectin fibrillogenesis facilitates mechano-dependent cell spreading, force generation, and nuclear size in human embryonic fibroblasts.纤连蛋白原纤维形成促进人胚胎成纤维细胞中机械依赖的细胞铺展、力的产生和细胞核大小。
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Matrix stiffness drives epithelial-mesenchymal transition and tumour metastasis through a TWIST1-G3BP2 mechanotransduction pathway.基质硬度通过TWIST1-G3BP2机械转导途径驱动上皮-间质转化和肿瘤转移。
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Matrix Rigidity Mediates TGFβ1-Induced Epithelial-Myofibroblast Transition by Controlling Cytoskeletal Organization and MRTF-A Localization.基质刚度通过控制细胞骨架组织和MRTF-A定位介导TGFβ1诱导的上皮-肌成纤维细胞转化。
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Biomechanics of TGFβ-induced epithelial-mesenchymal transition: implications for fibrosis and cancer.TGFβ 诱导的上皮-间充质转化的生物力学:对纤维化和癌症的影响。
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Fibronectin at select sites binds multiple growth factors and enhances their activity: expansion of the collaborative ECM-GF paradigm.特定部位的纤连蛋白结合多种生长因子并增强其活性:细胞外基质-生长因子协作范例的扩展。
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纤连蛋白原纤维调节转化生长因子-β1诱导的上皮-间质转化。

Fibronectin fibrils regulate TGF-β1-induced Epithelial-Mesenchymal Transition.

作者信息

Griggs Lauren A, Hassan Nadiah T, Malik Roshni S, Griffin Brian P, Martinez Brittany A, Elmore Lynne W, Lemmon Christopher A

机构信息

Department of Biomedical Engineering, Virginia Commonwealth University, 800 E. Leigh St., Richmond, VA 23298, United States.

Department of Pathology, Virginia Commonwealth University, 1101 E. Marshall St., Richmond, VA 23298, United States; Massey Cancer Center, Virginia Commonwealth University, 101 W Franklin St., Richmond, VA 23220, United States.

出版信息

Matrix Biol. 2017 Jul;60-61:157-175. doi: 10.1016/j.matbio.2017.01.001. Epub 2017 Jan 19.

DOI:10.1016/j.matbio.2017.01.001
PMID:28109697
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5438896/
Abstract

Epithelial-Mesenchymal Transition (EMT) is a dynamic process through which epithelial cells transdifferentiate from an epithelial phenotype into a mesenchymal phenotype. Previous studies have demonstrated that both mechanical signaling and soluble growth factor signaling facilitate this process. One possible point of integration for mechanical and growth factor signaling is the extracellular matrix. Here we investigate the role of the extracellular matrix (ECM) protein fibronectin (FN) in this process. We demonstrate that inhibition of FN fibrillogenesis blocks activation of the Transforming Growth Factor-Beta (TGF-β) signaling pathway via Smad2 signaling, decreases cell migration and ultimately leads to inhibition of EMT. Results show that soluble FN, FN fibrils, or increased contractile forces are insufficient to independently induce EMT. We further demonstrate that inhibition of latent TGF-β1 binding to FN fibrils via either a monoclonal blocking antibody against the growth factor binding domain of FN or through use of a FN deletion mutant that lacks the growth factor binding domains of FN blocks EMT progression, indicating a novel role for FN in EMT in which the assembly of FN fibrils serves to localize TGF-β1 signaling to drive EMT.

摘要

上皮-间质转化(EMT)是一个动态过程,上皮细胞通过该过程从上皮表型转分化为间质表型。先前的研究表明,机械信号传导和可溶性生长因子信号传导均有助于这一过程。机械信号和生长因子信号整合的一个可能位点是细胞外基质。在此,我们研究细胞外基质(ECM)蛋白纤连蛋白(FN)在此过程中的作用。我们证明,抑制FN原纤维形成会通过Smad2信号传导阻断转化生长因子-β(TGF-β)信号通路的激活,减少细胞迁移,并最终导致EMT受到抑制。结果表明,可溶性FN、FN原纤维或增加的收缩力均不足以独立诱导EMT。我们进一步证明,通过针对FN生长因子结合域的单克隆阻断抗体或使用缺乏FN生长因子结合域的FN缺失突变体来抑制潜伏TGF-β1与FN原纤维的结合,可阻断EMT进程,这表明FN在EMT中具有新的作用,即FN原纤维的组装有助于定位TGF-β1信号传导以驱动EMT。