随机内源性复制压力导致 ATR 触发的 CDK2 活性波动，从而动态调节整体 DNA 合成速率。

Stochastic Endogenous Replication Stress Causes ATR-Triggered Fluctuations in CDK2 Activity that Dynamically Adjust Global DNA Synthesis Rates.

机构信息

Department of Chemical and Systems Biology, Stanford University School of Medicine, Stanford, CA 94305, USA.

出版信息

Cell Syst. 2018 Jul 25;7(1):17-27.e3. doi: 10.1016/j.cels.2018.05.011. Epub 2018 Jun 13.

DOI:10.1016/j.cels.2018.05.011

PMID:29909278

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6436092/

Abstract

Faithful DNA replication is challenged by stalling of replication forks during S phase. Replication stress is further increased in cancer cells or in response to genotoxic insults. Using live single-cell image analysis, we found that CDK2 activity fluctuates throughout an unperturbed S phase. We show that CDK2 fluctuations result from transient ATR signals triggered by stochastic replication stress events. In turn, fluctuating endogenous CDK2 activity causes corresponding decreases and increases in DNA synthesis rates, linking changes in stochastic replication stress to fluctuating global DNA replication rates throughout S phase. Moreover, cells that re-enter the cell cycle after mitogen stimulation have increased CDK2 fluctuations and prolonged S phase resulting from increased replication stress-induced CDK2 suppression. Thus, our study reveals a dynamic control principle for DNA replication whereby CDK2 activity is suppressed and fluctuates throughout S phase to continually adjust global DNA synthesis rates in response to recurring stochastic replication stress events.

摘要

忠实的 DNA 复制受到 S 期复制叉停滞的挑战。在癌细胞中或对遗传毒性损伤的反应中，复制压力进一步增加。使用活细胞单细胞图像分析，我们发现 CDK2 活性在未受干扰的 S 期内波动。我们表明，CDK2 的波动是由随机复制压力事件引发的瞬时 ATR 信号引起的。反过来，内源性 CDK2 活性的波动会导致 DNA 合成速率相应的降低和增加，将随机复制压力的变化与整个 S 期内全球 DNA 复制速率的波动联系起来。此外，在有丝分裂刺激后重新进入细胞周期的细胞中，由于复制压力诱导的 CDK2 抑制增加，CDK2 波动增加和 S 期延长。因此，我们的研究揭示了 DNA 复制的动态控制原理，即 CDK2 活性在 S 期内受到抑制并波动，以响应反复出现的随机复制压力事件，持续调整全球 DNA 合成速率。

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随机内源性复制压力导致 ATR 触发的 CDK2 活性波动，从而动态调节整体 DNA 合成速率。

Stochastic Endogenous Replication Stress Causes ATR-Triggered Fluctuations in CDK2 Activity that Dynamically Adjust Global DNA Synthesis Rates.

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