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非经典 WNT5A-ROR 信号通路:古老发育途径的新视角。

Non-canonical WNT5A-ROR signaling: New perspectives on an ancient developmental pathway.

机构信息

Department of Cell Biology and Human Anatomy, University of California Davis, School of Medicine, Davis, CA, United States.

Department of Biochemistry and Molecular Medicine, UC Davis Comprehensive Cancer Center, University of California Davis, School of Medicine, Sacramento, CA, United States.

出版信息

Curr Top Dev Biol. 2023;153:195-227. doi: 10.1016/bs.ctdb.2023.01.009. Epub 2023 Mar 17.

DOI:10.1016/bs.ctdb.2023.01.009
PMID:36967195
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11042798/
Abstract

Deciphering non-canonical WNT signaling has proven to be both fascinating and challenging. Discovered almost 30 years ago, non-canonical WNT ligands signal independently of the transcriptional co-activator β-catenin to regulate a wide range of morphogenetic processes during development. The molecular and cellular mechanisms that underlie non-canonical WNT function, however, remain nebulous. Recent results from various model systems have converged to define a core non-canonical WNT pathway consisting of the prototypic non-canonical WNT ligand, WNT5A, the receptor tyrosine kinase ROR, the seven transmembrane receptor Frizzled and the cytoplasmic scaffold protein Dishevelled. Importantly, mutations in each of these signaling components cause Robinow syndrome, a congenital disorder characterized by profound tissue morphogenetic abnormalities. Moreover, dysregulation of the pathway has also been linked to cancer metastasis. As new knowledge concerning the WNT5A-ROR pathway continues to grow, modeling these mutations will likely provide crucial insights into both the physiological regulation of the pathway and the etiology of WNT5A-ROR-driven diseases.

摘要

解析非经典 WNT 信号已被证明既迷人又具有挑战性。非经典 WNT 配体在大约 30 年前被发现,它独立于转录共激活因子β-catenin 信号传导,在发育过程中调节广泛的形态发生过程。然而,非经典 WNT 功能的分子和细胞机制仍然模糊不清。来自不同模型系统的最新结果已经汇聚在一起,定义了一个核心的非经典 WNT 途径,该途径由原型非经典 WNT 配体 WNT5A、受体酪氨酸激酶 ROR、七跨膜受体 Frizzled 和细胞质支架蛋白 Dishevelled 组成。重要的是,这些信号传导组件中的每个突变都会导致 Robinow 综合征,这是一种先天性疾病,其特征是组织形态发生异常严重。此外,该途径的失调也与癌症转移有关。随着有关 WNT5A-ROR 途径的新知识不断增加,对这些突变进行建模可能会为该途径的生理调节以及 WNT5A-ROR 驱动疾病的病因提供重要的见解。

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