从组织力学到转录因子。
From tissue mechanics to transcription factors.
机构信息
Departments of Physiology and Institute for Medicine and Engineering, University of Pennsylvania, Philadelphia, PA 19104, USA.
出版信息
Differentiation. 2013 Oct;86(3):112-20. doi: 10.1016/j.diff.2013.07.004. Epub 2013 Aug 20.
Abstract
Changes in tissue stiffness are frequently associated with diseases such as cancer, fibrosis, and atherosclerosis. Several recent studies suggest that, in addition to resulting from pathology, mechanical changes may play a role akin to soluble factors in causing the progression of disease, and similar mechanical control might be essential for normal tissue development and homeostasis. Many cell types alter their structure and function in response to exogenous forces or as a function of the mechanical properties of the materials to which they adhere. This review summarizes recent progress in identifying intracellular signaling pathways, and especially transcriptional programs, that are differentially activated when cells adhere to materials with different mechanical properties or when they are subject to tension arising from external forces. Several cytoplasmic or cytoskeletal signaling pathways involving small GTPases, focal adhesion kinase and transforming growth factor beta as well as the transcriptional regulators MRTF-A, NFκB, and Yap/Taz have emerged as important mediators of mechanical signaling.
摘要
组织硬度的变化常与癌症、纤维化和动脉粥样硬化等疾病有关。最近的几项研究表明,机械变化除了由病理学引起之外,还可能在疾病的进展中发挥类似于可溶性因子的作用,类似的机械控制对于正常组织的发育和稳态可能是必不可少的。许多细胞类型会根据外部力的作用或它们所附着的材料的机械性能来改变其结构和功能。这篇综述总结了最近在识别细胞内信号通路方面的进展,特别是当细胞黏附在具有不同机械性能的材料上或受到来自外部力的张力时,会有不同的转录程序被激活。一些细胞质或细胞骨架信号通路,包括小 GTP 酶、粘着斑激酶和转化生长因子β,以及转录调节因子 MRTF-A、NFκB 和 Yap/Taz,已成为机械信号的重要介质。
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