GRK2- 介导的 AKT 激活以 p53 依赖性方式控制细胞周期进展和 G2 检查点。

IF 6.1 2区 生物学 Q1 CELL BIOLOGY
Verónica Rivas, Teresa González-Muñoz, Ángela Albitre, Vanesa Lafarga, Cristina Delgado-Arévalo, Federico Mayor, Petronila Penela
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引用次数: 0

摘要

细胞周期检查点由应激事件激活,可阻止细胞周期的进展,并防止受损 DNA 的传递。这些检查点促使细胞修复,但如果损伤持续存在,也会引发细胞死亡。这些反应之间的决策是多因素的,并取决于具体情况,其中肿瘤抑制因子 p53 起着核心作用。在许多肿瘤细胞中,p53 的改变会导致 G1/S 检查点缺失和 G2 检查点减弱,从而使细胞存活能力取决于后者的强度,其机制尚未完全确定。尽管存在大量 DNA 损伤,但具有强大求生动力的细胞仍能避免细胞死亡。破译生存途径与 p53 依赖性和非依赖性机制在 G2/M 转换中的整合,对于理解 G2 停滞功能和预测肿瘤细胞对化疗的反应至关重要。丝氨酸/苏氨酸激酶GRK2成为细胞周期调控的信号节点。在周期性细胞中,GRK2蛋白水平在G2/M转换过程中会通过CDK2依赖性磷酸化GRK2的S670残基和Mdm2泛素化引发下降,而在G2检查点停滞细胞中则不会。我们现在报告说,G2 中的这种下调可防止 PI3K/AKT 通路的计划外激活,使细胞进入有丝分裂。相反,较高的 GRK2 水平会导致激酶 c-Abl 的酪氨酸磷酸化,促进 GRK2 与 PI3K 的 p85 调节亚基直接结合,并以 GRK2 催化无关的方式激活 AKT。AKT 的超活化受 p53 支架功能的制约,引发 FOXO3a 磷酸化、Cyclin B1 积累受损和 CDK1 激活,导致 G2/M 过渡延迟。在 G2 检查点激活时,GRK2 通过 AKT 激活,在 p53 的作用之外增强了早期停滞的能力。然而,它在存活条件下克服 G2 检查点的能力取决于 p53。我们的研究结果表明,GRK2/PI3K/AKT 轴与 p53 的非经典功能相结合可能会给肿瘤细胞带来生存优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

GRK2-mediated AKT activation controls cell cycle progression and G2 checkpoint in a p53-dependent manner.

GRK2-mediated AKT activation controls cell cycle progression and G2 checkpoint in a p53-dependent manner.

Cell cycle checkpoints, activated by stressful events, halt the cell cycle progression, and prevent the transmission of damaged DNA. These checkpoints prompt cell repair but also trigger cell death if damage persists. Decision-making between these responses is multifactorial and context-dependent, with the tumor suppressor p53 playing a central role. In many tumor cells, p53 alterations lead to G1/S checkpoint loss and the weakening of the G2 checkpoint, rendering cell viability dependent on the strength of the latter through mechanisms not fully characterized. Cells with a strong pro-survival drive can evade cell death despite substantial DNA lesions. Deciphering the integration of survival pathways with p53-dependent and -independent mechanisms governing the G2/M transition is crucial for understanding G2 arrest functionality and predicting tumor cell response to chemotherapy. The serine/threonine kinase GRK2 emerges as a signaling node in cell cycle modulation. In cycling cells, but not in G2 checkpoint-arrested cells, GRK2 protein levels decline during G2/M transition through a process triggered by CDK2-dependent phosphorylation of GRK2 at the S670 residue and Mdm2 ubiquitination. We report now that this downmodulation in G2 prevents the unscheduled activation of the PI3K/AKT pathway, allowing cells to progress into mitosis. Conversely, higher GRK2 levels lead to tyrosine phosphorylation by the kinase c-Abl, promoting the direct association of GRK2 with the p85 regulatory subunit of PI3K and AKT activation in a GRK2 catalytic-independent manner. Hyperactivation of AKT is conditioned by p53's scaffolding function, triggering FOXO3a phosphorylation, impaired Cyclin B1 accumulation, and CDK1 activation, causing a G2/M transition delay. Upon G2 checkpoint activation, GRK2 potentiates early arrest independently of p53 through AKT activation. However, its ability to overcome the G2 checkpoint in viable conditions depends on p53. Our results suggest that integrating the GRK2/PI3K/AKT axis with non-canonical functions of p53 might confer a survival advantage to tumor cells.

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来源期刊
Cell Death Discovery
Cell Death Discovery Biochemistry, Genetics and Molecular Biology-Cell Biology
CiteScore
8.30
自引率
1.40%
发文量
468
审稿时长
9 weeks
期刊介绍: Cell Death Discovery is a multidisciplinary, international, online-only, open access journal, dedicated to publishing research at the intersection of medicine with biochemistry, pharmacology, immunology, cell biology and cell death, provided it is scientifically sound. The unrestricted access to research findings in Cell Death Discovery will foster a dynamic and highly productive dialogue between basic scientists and clinicians, as well as researchers in industry with a focus on cancer, neurobiology and inflammation research. As an official journal of the Cell Death Differentiation Association (ADMC), Cell Death Discovery will build upon the success of Cell Death & Differentiation and Cell Death & Disease in publishing important peer-reviewed original research, timely reviews and editorial commentary. Cell Death Discovery is committed to increasing the reproducibility of research. To this end, in conjunction with its sister journals Cell Death & Differentiation and Cell Death & Disease, Cell Death Discovery provides a unique forum for scientists as well as clinicians and members of the pharmaceutical and biotechnical industry. It is committed to the rapid publication of high quality original papers that relate to these subjects, together with topical, usually solicited, reviews, editorial correspondence and occasional commentaries on controversial and scientifically informative issues.
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