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Smad 连接区磷酸化是一个独立的信号通路,而不仅仅是经典 TGF-β信号的调节剂。

Smad linker region phosphorylation is a signalling pathway in its own right and not only a modulator of canonical TGF-β signalling.

机构信息

Pharmacy Australia Centre of Excellence, School of Pharmacy, The University of Queensland, 20 Cornwall Street, Woolloongabba, QLD, 4102, Australia.

Department of Pharmacy, Xinhua College of Sun Yat-Sen University, Tianhe District, Guangzhou, 510520, China.

出版信息

Cell Mol Life Sci. 2020 Jan;77(2):243-251. doi: 10.1007/s00018-019-03266-3. Epub 2019 Aug 12.

DOI:10.1007/s00018-019-03266-3
PMID:31407020
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11104920/
Abstract

Transforming growth factor (TGF)-β signalling pathways are intensively investigated because of their diverse association with physiological and pathophysiological states. Smad transcription factors are the key mediators of TGF-β signalling. Smads can be directly phosphorylated in the carboxy terminal by the TGF-β receptor or in the linker region via multiple intermediate serine/threonine kinases. Growth factors in addition to hormones and TGF-β can activate many of the same kinases which can phosphorylate the Smad linker region. Historically, Smad linker region phosphorylation was shown to prevent nuclear translocation of Smads and inhibit TGF-β signalling pathways; however, it was subsequently shown that Smad linker region phosphorylation can be a driver of gene expression. This review will cover the signalling pathways of Smad linker region phosphorylation that drive the expression of genes involved in pathology and pathophysiology. The role of Smad signalling in cell biology is expanding rapidly beyond its role in TGF-β signalling and many signalling paradigms need to be re-evaluated in terms of Smad involvement.

摘要

转化生长因子-β(TGF-β)信号通路与生理和病理状态密切相关,因此受到了广泛的研究。Smad 转录因子是 TGF-β信号通路的关键介质。TGF-β受体可直接在羧基末端使 Smad 磷酸化,或通过多种中间丝氨酸/苏氨酸激酶在连接区使 Smad 磷酸化。生长因子除了激素和 TGF-β之外,还可以激活许多相同的激酶,这些激酶可以磷酸化 Smad 的连接区。历史上,Smad 连接区的磷酸化被证明可以阻止 Smad 的核转位并抑制 TGF-β信号通路;然而,随后的研究表明,Smad 连接区的磷酸化可以驱动基因的表达。本综述将涵盖驱动与病理学和病理生理学相关的基因表达的 Smad 连接区磷酸化的信号通路。Smad 信号在细胞生物学中的作用正在迅速扩展,超出了其在 TGF-β信号中的作用,许多信号模式都需要根据 Smad 的参与进行重新评估。

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