Mechanosignaling pathways in cutaneous scarring

HuangC.; AkaishiS.; OgawaR.

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Mechanosignaling pathways in cutaneous scarring

机译：皮肤瘢痕形成中的机械信号通路

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Mechanotransduction is the process by which physical forces are sensed and converted into biochemical signals that then result in cellular responses. The discovery and development of various molecular pathways involved in this process have revolutionized the fundamental and clinical understanding regarding the formation and progression of cutaneous scars. The aim of this review is to report the recent advances in scar mechanosignaling research. The mechanosignaling pathways that participate in the formation and growth of cutaneous scars can be divided into those whose role in mechanoresponsiveness has been proven (the TGF-β/Smad, integrin, and calcium ion pathways) and those who have a possible but as yet unproven role (such as MAPK and G protein, Wnt/βcatenin, TNF-α/NF-κB, and interleukins). During scar development, these cellular mechanosignaling pathways interact actively with the extracellular matrix. They also crosstalk extensively with the hypoxia, inflammation, and angiogenesis pathways. The elucidation of scar mechanosignaling pathways provides a new platform for understanding scar development. This better understanding will facilitate research into this promising field and may help to promote the development of pharmacological interventions that could ultimately prevent, reduce, or even reverse scar formation or progression.

机译：机械转导是感测物理力并将其转换为生化信号，然后导致细胞反应的过程。在此过程中涉及的各种分子途径的发现和发展彻底改变了有关皮肤疤痕形成和发展的基本和临床理解。这篇综述的目的是报告疤痕机械信号研究的最新进展。参与皮肤疤痕形成和生长的机械信号传递途径可分为那些已被证实在机械反应性中起作用的途径（TGF-β/ Smad，整联蛋白和钙离子途径）和那些可能但尚未得到证实的途径。作用（例如MAPK和G蛋白，Wnt /βcatenin，TNF-α/NF-κB和白介素）。在疤痕形成过程中，这些细胞机械信号通路与细胞外基质积极相互作用。它们还与缺氧，炎症和血管生成途径广泛串扰。疤痕机械信号通路的阐明为理解疤痕的发展提供了新的平台。这种更好的理解将有助于对这一有前途的领域的研究，并可能有助于促进可能最终预防，减少甚至逆转疤痕形成或进展的药理学干预措施的发展。

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《Archives of dermatological research.》 |2012年第8期|共9页
作者
HuangC.; AkaishiS.; OgawaR.;
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正文语种 eng
中图分类皮肤病学与性病学;
关键词
Fibroblast; Keloid; Mechanobiology; Mechanotransduction; Scar;

机译：成纤维细胞;瘢痕loid;力学生物学;机械转导;瘢痕;

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1. Mechanosignaling pathways in cutaneous scarring [J] . HuangC., AkaishiS., OgawaR. Archives of dermatological research. . 2012,第8期

机译：皮肤瘢痕形成中的机械信号通路
2. Mechanosignaling pathways in cutaneous scarring [J] . Chenyu Huang, Satoshi Akaishi, Rei Ogawa Archives of Dermatological Research . 2012,第8期

机译：皮肤瘢痕形成中的机械信号通路
3. Tetrahedral framework nucleic acids promote scarless healing of cutaneous wounds via the AKT-signaling pathway [J] . Junyao Zhu, Mei Zhang, Yang Gao, Signal transduction and targeted therapy. . 2020,第1期

机译：四面体骨架核酸通过AKT信号通路促进皮肤伤口的无尾愈合
4. Quantified characterization of dermal collagen structure in human cutaneous scars from second harmonic generation imaging [C] . Xiaoqin Zhu, Youting Chen, Shuangmu Zhuo, Photonics and imaging in biology and medicine . 2009

机译：二次谐波成像对人皮肤瘢痕中真皮胶原蛋白结构的定量表征
5. Characterization of the Long Noncoding RNA DINO in the DNA Damage Response and of JUN in Cutaneous Scarring [D] . Garcia-Daou, Julia Teresa. 2020

机译：DNA损伤响应中长度非划分RNA DINO的表征及皮肤瘢痕
6. Abnormalities of Human Superficial Cutaneous Lymphatics Associated with Stasis Ulcers Lymphedema Scars and Cutaneous Autografts [O] . Harvey R. Butcher Jr., Alice L. Hoover 1955

机译：人浅表皮肤淋巴管异常与淤积性溃疡淋巴水肿疤痕和皮肤自体移植相关
7. A Feed-Forward Mechanosignaling Loop Confers Resistance to Therapies Targeting the MAPK Pathway in BRAF-Mutant Melanoma [O] . Christophe A. Girard, Margaux Lecacheur, Rania Ben Jouira, 2020

机译：前馈机械型环路赋予靶向BRAF-突变体黑素瘤MAPK途径的疗法

Mechanosignaling pathways in cutaneous scarring

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