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“获许杀戮”:酪氨酸去磷酸化和 Bak 激活。

"Licensed to kill": tyrosine dephosphorylation and Bak activation.

机构信息

Department of Molecular Oncology, Weatherall Institute of Molecular Medicine, University of Oxford, John Radcliffe Hospital, Oxford, UK.

出版信息

Cell Cycle. 2011 Feb 15;10(4):598-603. doi: 10.4161/cc.10.4.14793.

Abstract

The genomes of multi-cellular organisms are under constant assault from a host of environmental agents. The efficient elimination of cells harbouring damage is essential to avoid the accumulation of deleterious changes that may promote tumorigenesis. Consequently, a complex and elaborate series of damage responses have evolved to either ensure that correct repair of the DNA has been carried out, or alternatively, to initiate programmes that result in the ablation of the damaged cell. Apoptosis is recognized as both a fast an efficient way of disposing of damaged or unwanted cells before they accumulate changes that may result in the acquisition of neoplastic autonomy. The mitochondrial apoptotic pathway relies upon two effector proteins of the Bcl2 family, Bax and Bak, that when activated form pores in the outer mitochondrial membrane that release cytochrome c and other apoptogenic factors. We have recently shown that the initiation of Bak activation is controlled by dephosphorylation. In particular, we found that a specific tyrosine dephosphorylation was required for Bak activation to proceed, and that tyrosine phosphatases may serve to integrate apoptotic signals that culminate in Bak dephosphorylation. Here, we discuss these findings and present additional data underlining the importance of dephosphorylation in the Bak activation process, and how the modulation of Bak phosphorylation status may be modified to enhance cell killing.

摘要

多细胞生物的基因组不断受到各种环境因素的攻击。有效清除携带损伤的细胞对于避免积累可能促进肿瘤发生的有害变化至关重要。因此,已经进化出一系列复杂而精细的损伤反应,以确保 DNA 得到正确修复,或者启动导致损伤细胞消融的程序。细胞凋亡被认为是一种快速有效的方法,可以在受损或不需要的细胞积累可能导致获得肿瘤自主性的变化之前将其清除。线粒体凋亡途径依赖于 Bcl2 家族的两种效应蛋白 Bax 和 Bak,当它们被激活时,在外膜上形成孔,释放细胞色素 c 和其他促凋亡因子。我们最近表明,Bak 激活的启动受去磷酸化控制。特别是,我们发现 Bak 激活需要特定的酪氨酸去磷酸化,并且酪氨酸磷酸酶可能用于整合最终导致 Bak 去磷酸化的凋亡信号。在这里,我们讨论这些发现,并提供额外的数据,强调了去磷酸化在 Bak 激活过程中的重要性,以及如何修饰 Bak 磷酸化状态的调节以增强细胞杀伤。

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