Smad2和Smad3在传递转化生长因子β（TGFβ）信号方面具有不同的敏感性，并反向调节早期谱系特化。

Smad2 and Smad3 have differential sensitivity in relaying TGFβ signaling and inversely regulate early lineage specification.

作者信息

Liu Ling, Liu Xu, Ren Xudong, Tian Yue, Chen Zhenyu, Xu Xiangjie, Du Yanhua, Jiang Cizhong, Fang Yujiang, Liu Zhongliang, Fan Beibei, Zhang Quanbin, Jin Guohua, Yang Xiao, Zhang Xiaoqing

机构信息

Shanghai Tenth People's Hospital, and Neuroregeneration Key Laboratory of Shanghai Universities, Tongji University School of Medicine, Shanghai 200092, China.

Tongji University Advanced Institute of Translational Medicine, Shanghai 200092, China.

出版信息

Sci Rep. 2016 Feb 24;6:21602. doi: 10.1038/srep21602.

DOI:10.1038/srep21602

PMID:26905010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4764856/

Abstract

The transforming growth factor beta (TGFβ) related signaling is one of the most important signaling pathways regulating early developmental events. Smad2 and Smad3 are structurally similar and it is mostly considered that they are equally important in mediating TGFβ signals. Here, we show that Smad3 is an insensitive TGFβ transducer as compared with Smad2. Smad3 preferentially localizes within the nucleus and is thus sequestered from membrane signaling. The ability of Smad3 in oligomerization with Smad4 upon agonist stimulation is also impaired given its unique linker region. Smad2 mediated TGFβ signaling plays a crucial role in epiblast development and patterning of three germ layers. However, signaling unrelated nuclear localized Smad3 is dispensable for TGFβ signaling-mediated epiblast specification, but important for early neural development, an event blocked by TGFβ/Smad2 signaling. Both Smad2 and Smad3 bind to the conserved Smads binding element (SBE), but they show nonoverlapped target gene binding specificity and differential transcriptional activity. We conclude that Smad2 and Smad3 possess differential sensitivities in relaying TGFβ signaling and have distinct roles in regulating early developmental events.

摘要

转化生长因子β（TGFβ）相关信号通路是调控早期发育事件的最重要信号通路之一。Smad2和Smad3在结构上相似，人们大多认为它们在介导TGFβ信号方面同样重要。在此，我们表明与Smad2相比，Smad3是一种不敏感的TGFβ转导分子。Smad3优先定位于细胞核内，因此与膜信号隔离。鉴于其独特的连接区，Smad3在激动剂刺激后与Smad4寡聚化的能力也受损。Smad2介导的TGFβ信号通路在胚外外胚层发育和三个胚层的模式形成中起关键作用。然而，与信号无关的核定位Smad3对于TGFβ信号介导的胚外外胚层特化是可有可无的，但对于早期神经发育很重要，而这一过程会被TGFβ/Smad2信号通路阻断。Smad2和Smad3都与保守的Smads结合元件（SBE）结合，但它们显示出不重叠的靶基因结合特异性和不同的转录活性。我们得出结论，Smad2和Smad3在传递TGFβ信号方面具有不同的敏感性，并且在调节早期发育事件中具有不同的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bc42/4764856/2c5c3e976e73/srep21602-f1.jpg

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Smad2和Smad3在传递转化生长因子β（TGFβ）信号方面具有不同的敏感性，并反向调节早期谱系特化。

Smad2 and Smad3 have differential sensitivity in relaying TGFβ signaling and inversely regulate early lineage specification.

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