ENSA 和 ARPP19 对细胞周期进程和发育有不同的控制作用。

ENSA and ARPP19 differentially control cell cycle progression and development.

机构信息

Centre de Recherche de Biologie Cellulaire de Montpellier, Centre National de la Recherche Scientifique, Unité Mixte de Recherche 5237, Université de Montpellier, Montpellier, France.

Instituto de Biología Molecular y Celular del Cáncer, Universidad de Salamanca/Consejo Superior de Investigaciones Cientificas, Salamanca, Spain.

出版信息

J Cell Biol. 2019 Feb 4;218(2):541-558. doi: 10.1083/jcb.201708105. Epub 2019 Jan 9.

DOI:10.1083/jcb.201708105

PMID:30626720

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6363464/

Abstract

Greatwall (GWL) is an essential kinase that indirectly controls PP2A-B55, the phosphatase counterbalancing cyclin B/CDK1 activity during mitosis. In egg extracts, GWL-mediated phosphorylation of overexpressed ARPP19 and ENSA turns them into potent PP2A-B55 inhibitors. It has been shown that the GWL/ENSA/PP2A-B55 axis contributes to the control of DNA replication, but little is known about the role of ARPP19 in cell division. By using conditional knockout mouse models, we investigated the specific roles of ARPP19 and ENSA in cell division. We found that , but not , is essential for mouse embryogenesis. Moreover, ablation dramatically decreased mouse embryonic fibroblast (MEF) viability by perturbing the temporal pattern of protein dephosphorylation during mitotic progression, possibly by a drop of PP2A-B55 activity inhibition. We show that these alterations are not prevented by ENSA, which is still expressed in MEFs, suggesting that ARPP19 is essential for mitotic division. Strikingly, we demonstrate that unlike ARPP19, ENSA is not required for early embryonic development. knockout did not perturb the S phase, unlike gene ablation. We conclude that, during mouse embryogenesis, the and paralog genes display specific functions by differentially controlling cell cycle progression.

摘要

长城（GWL）是一种必需的激酶，它间接控制着 PP2A-B55，这种磷酸酶在有丝分裂过程中抵消了细胞周期蛋白 B/CDK1 的活性。在卵提取物中，GWL 介导的过表达的 ARPP19 和 ENSA 的磷酸化将它们转化为强效的 PP2A-B55 抑制剂。已经表明，GWL/ENSA/PP2A-B55 轴有助于控制 DNA 复制，但关于 ARPP19 在细胞分裂中的作用知之甚少。通过使用条件性敲除小鼠模型，我们研究了 ARPP19 和 ENSA 在细胞分裂中的特定作用。我们发现，ARPP19 而不是 ENSA 对于小鼠胚胎发生是必需的。此外，基因敲除通过扰乱有丝分裂进程中蛋白质去磷酸化的时间模式，极大地降低了小鼠胚胎成纤维细胞（MEF）的活力，可能是由于 PP2A-B55 活性抑制的下降。我们表明，这些变化不能被 ENSA 阻止，因为 ENSA 在 MEFs 中仍然表达，这表明 ARPP19 对于有丝分裂分裂是必需的。引人注目的是，我们证明与 ARPP19 不同，ENSA 对于早期胚胎发育不是必需的。基因敲除不会像基因缺失那样扰乱 S 期。我们得出结论，在小鼠胚胎发生过程中，和基因的同源基因通过差异控制细胞周期进程显示出特定的功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18b1/6363464/9cc23b222769/JCB_201708105_Fig1.jpg

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ENSA 和 ARPP19 对细胞周期进程和发育有不同的控制作用。

ENSA and ARPP19 differentially control cell cycle progression and development.

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