Cell Biology of Canonical Wnt Signaling.

IF 11.4 1区生物学 Q1 CELL BIOLOGY

Annual review of cell and developmental biology Pub Date : 2021-10-06 Epub Date: 2021-07-01 DOI:10.1146/annurev-cellbio-120319-023657

Lauren V Albrecht, Nydia Tejeda-Muñoz, Edward M De Robertis

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引用次数: 51

Abstract

Wnt signaling has multiple functions beyond the transcriptional effects of β-catenin stabilization. We review recent investigations that uncover new cell physiological effects through the regulation of Wnt receptor endocytosis, Wnt-induced stabilization of proteins (Wnt-STOP), macropinocytosis, increase in lysosomal activity, and metabolic changes. Many of these growth-promoting effects of canonical Wnt occur within minutes and are independent of new protein synthesis. A key element is the sequestration of glycogen synthase kinase 3 (GSK3) inside multivesicular bodies and lysosomes. Twenty percent of human proteins contain consecutive GSK3 phosphorylation motifs, which in the absence of Wnt can form phosphodegrons for polyubiquitination and proteasomal degradation. Wnt signaling by either the pharmacological inhibition of GSK3 or the loss of tumor-suppressor proteins, such as adenomatous polyposis coli (APC) and Axin1, increases lysosomal acidification, anabolic metabolites, and macropinocytosis, which is normally repressed by the GSK3-Axin1-APC destruction complex. The combination of these cell physiological effects drives cell growth.

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典型Wnt信号传导的细胞生物学研究

除了β-catenin稳定的转录作用外，Wnt信号还具有多种功能。我们回顾了最近的研究，通过调节Wnt受体内吞作用、Wnt诱导的蛋白质稳定(Wnt- stop)、巨量胞饮、溶酶体活性增加和代谢变化，揭示了新的细胞生理效应。典型Wnt的许多这些促进生长的作用在几分钟内发生，并且独立于新的蛋白质合成。其中一个关键因素是糖原合成酶激酶3 (GSK3)在多泡体和溶酶体中的隔离。20%的人类蛋白质含有连续的GSK3磷酸化基序，在缺乏Wnt的情况下，这些基序可以形成磷素，用于多泛素化和蛋白酶体降解。Wnt信号通过GSK3的药理学抑制或肿瘤抑制蛋白(如大肠腺瘤性息肉病(APC)和Axin1)的缺失，增加溶酶体酸化、合成代谢代谢物和巨噬细胞增多，而这些通常由GSK3-Axin1-APC破坏复合体抑制。这些细胞生理作用的结合驱动细胞生长。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annual review of cell and developmental biology 生物-发育生物学

CiteScore

19.50

自引率

0.00%

发文量

期刊介绍： The Annual Review of Cell and Developmental Biology, established in 1985, comprehensively addresses major advancements in cell and developmental biology. Encompassing the structure, function, and organization of cells, as well as the development and evolution of cells in relation to both single and multicellular organisms, the journal explores models and tools of molecular biology. As of the current volume, the journal has transitioned from gated to open access through Annual Reviews' Subscribe to Open program, making all articles published under a CC BY license.