Dido对上皮-间质转化的影响

Archives of cancer biology and therapy Pub Date : 2021-12-29 DOI:10.33696/cancerbiology.2.025

A. Fütterer, Amaia Talavera-Gutiérrez, C. Martínez-A

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摘要

这些细胞类型中的每一种都显示出特定的特征。上皮细胞具有顶基底极性，通过细胞连接连接，可形成覆盖许多组织的上皮层，而间充质细胞缺乏顶基底极性，连接较少，但更具有活动性[2]。尽管如此，这两种细胞类型都可以经历高度连接的相互转换。因此，EMT及其反向过程MET在胚胎发育中得到了很好的研究，并且在各种器官的分化和发育过程中描述了几轮EMT和MET。分析这些转变的分子研究表明，与转录后和翻译后修饰相关的转录和翻译调节因子的几个调控网络参与其中。基因和蛋白质调控参与细胞过程，如细胞-细胞接触、细胞粘附、细胞极性、细胞骨架组织(这意味着细胞迁移)，所有这些都是成功、正确过渡的原因[3-5]。

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The Impact of Dido on the Epithelial-Mesenchymal Transition

Each of these cell types displays specific characteristics. Epithelial cells have apicobasal polarity, are connected by cell junctions, and can form epithelial layers that cover many tissues, whereas mesenchymal cells lack apicobasal polarity, are less connected, but are more motile [2]. Both cell types can nonetheless undergo highly connected mutual transitions. EMT and its reverse process MET are thus well-studied in embryonic development, and several rounds of EMT and MET are described for the generation of various organs throughout their differentiation and development. Molecular studies to analyze these transitions show the involvement of several regulatory networks of transcriptional and translational regulators, linked to post-transcriptional and posttranslational modifications. Gene and protein regulation participate in cellular processes such as cell-cell contact, cell adhesion, cell polarity, cytoskeletal organization (which implies cell migration), all of which are responsible for successful, correct transitions [3-5].

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Archives of cancer biology and therapy

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