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FAT1 钙黏蛋白通过 TAZ 在 Hippo 信号通路的上游发挥作用,以调节神经元分化。

FAT1 cadherin acts upstream of Hippo signalling through TAZ to regulate neuronal differentiation.

作者信息

Ahmed Abdulrzag F, de Bock Charles E, Lincz Lisa F, Pundavela Jay, Zouikr Ihssane, Sontag Estelle, Hondermarck Hubert, Thorne Rick F

机构信息

School of Biomedical Sciences and Pharmacy, University of Newcastle, Callaghan, NSW, 2308, Australia.

Hunter Medical Research Institute, New Lambton Heights, NSW, 2305, Australia.

出版信息

Cell Mol Life Sci. 2015 Dec;72(23):4653-69. doi: 10.1007/s00018-015-1955-6. Epub 2015 Jun 24.

DOI:10.1007/s00018-015-1955-6
PMID:26104008
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11113810/
Abstract

The Hippo pathway is emerging as a critical nexus that balances self-renewal of progenitors against differentiation; however, upstream elements in vertebrate Hippo signalling are poorly understood. High expression of Fat1 cadherin within the developing neuroepithelium and the manifestation of severe neurological phenotypes in Fat1-knockout mice suggest roles in neurogenesis. Using the SH-SY5Y model of neuronal differentiation and employing gene silencing techniques, we show that FAT1 acts to control neurite outgrowth, also driving cells towards terminal differentiation via inhibitory effects on proliferation. FAT1 actions were shown to be mediated through Hippo signalling where it activated core Hippo kinase components and antagonised functions of the Hippo effector TAZ. Suppression of FAT1 promoted the nucleocytoplasmic shuttling of TAZ leading to enhanced transcription of the Hippo target gene CTGF together with accompanying increases in nuclear levels of Smad3. Silencing of TAZ reversed the effects of FAT1 depletion thus connecting inactivation of TAZ-TGFbeta signalling with Hippo signalling mediated through FAT1. These findings establish FAT1 as a new upstream Hippo element regulating early stages of differentiation in neuronal cells.

摘要

河马通路正逐渐成为一个关键的枢纽,平衡祖细胞的自我更新与分化;然而,脊椎动物河马信号传导的上游元件仍知之甚少。发育中的神经上皮内Fat1钙黏蛋白的高表达以及Fat1基因敲除小鼠中严重神经学表型的表现表明其在神经发生中发挥作用。利用神经元分化的SH-SY5Y模型并采用基因沉默技术,我们发现FAT1可控制神经突生长,还通过对增殖的抑制作用促使细胞走向终末分化。研究表明,FAT1的作用是通过河马信号传导介导的,它激活了河马信号传导的核心激酶成分,并拮抗了河马效应器TAZ的功能。FAT1的抑制促进了TAZ的核质穿梭,导致河马靶基因CTGF的转录增强,同时伴随Smad3核水平的增加。TAZ的沉默逆转了FAT1缺失的影响,从而将TAZ-TGFβ信号传导的失活与通过FAT1介导的河马信号传导联系起来。这些发现确立了FAT1作为调节神经元细胞分化早期阶段的新的上游河马元件。

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