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极光激酶A(AURKA)的破坏与其在有丝分裂退出时的活性解偶联,但对于抑制间期活性至关重要。

AURKA destruction is decoupled from its activity at mitotic exit but is essential to suppress interphase activity.

作者信息

Abdelbaki Ahmed, Akman H Begum, Poteau Marion, Grant Rhys, Gavet Olivier, Guarguaglini Giulia, Lindon Catherine

机构信息

Department of Pharmacology, University of Cambridge, Tennis Court Road, Cambridge CB2 1PD, UK.

Institut Gustave Roussy, UMR9019 - CNRS, 114 rue Edouard Vaillant, 94805 Villejuif, France.

出版信息

J Cell Sci. 2020 Jun 16;133(12):jcs243071. doi: 10.1242/jcs.243071.

DOI:10.1242/jcs.243071
PMID:32393600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7328152/
Abstract

Activity of AURKA is controlled through multiple mechanisms including phosphorylation, ubiquitin-mediated degradation and allosteric interaction with TPX2. Activity peaks at mitosis, before AURKA is degraded during and after mitotic exit in a process strictly dependent on the APC/C coactivator FZR1. We used FZR1 knockout cells (FZR1) and a novel FRET-based AURKA biosensor to investigate how AURKA activity is regulated in the absence of destruction. We found that AURKA activity in FZR1 cells dropped at mitotic exit as rapidly as in parental cells, despite absence of AURKA destruction. Unexpectedly, TPX2 was degraded normally in FZR1 cells. Overexpression of an N-terminal TPX2 fragment sufficient for AURKA binding, but that is not degraded at mitotic exit, caused delay in AURKA inactivation. We conclude that inactivation of AURKA at mitotic exit is determined not by AURKA degradation but by degradation of TPX2 and therefore is dependent on CDC20 rather than FZR1. The biosensor revealed that FZR1 instead suppresses AURKA activity in interphase and is critically required for assembly of the interphase mitochondrial network after mitosis.This article has an associated First Person interview with the first authors of the paper.

摘要

极光激酶A(AURKA)的活性通过多种机制进行调控,包括磷酸化、泛素介导的降解以及与TPX2的变构相互作用。其活性在有丝分裂时达到峰值,随后在有丝分裂退出期间及之后,AURKA在一个严格依赖后期促进复合体/细胞周期体(APC/C)辅激活因子FZR1的过程中被降解。我们使用FZR1基因敲除细胞(FZR1 -/-)和一种基于荧光共振能量转移(FRET)的新型AURKA生物传感器,来研究在缺乏降解作用的情况下AURKA活性是如何被调控的。我们发现,尽管不存在AURKA的降解,FZR1 -/-细胞中的AURKA活性在有丝分裂退出时下降的速度与亲代细胞一样快。出乎意料的是,TPX2在FZR1 -/-细胞中正常降解。一个足以与AURKA结合但在有丝分裂退出时不被降解的N端TPX2片段的过表达,导致AURKA失活延迟。我们得出结论,有丝分裂退出时AURKA的失活不是由AURKA的降解决定的,而是由TPX2的降解决定的,因此依赖于细胞分裂周期蛋白20(CDC20)而不是FZR1。该生物传感器显示,FZR1反而在间期抑制AURKA活性,并且对于有丝分裂后间期线粒体网络的组装至关重要。本文对该论文的第一作者进行了相关的第一人称访谈。

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