ATM 的差异定位与不同下游信号通路的激活相关。
Differential localization of ATM is correlated with activation of distinct downstream signaling pathways.
机构信息
Department of Carcinogenesis, The University of Texas M.D. Anderson Cancer Center, Smithville, TX, USA.
出版信息
Cell Cycle. 2010 Sep 15;9(18):3685-6. doi: 10.4161/cc.9.18.13253. Epub 2010 Sep 5.
Abstract
ATM, the gene mutated in the genetic disease ataxia telangiectasia (AT), is a well-known protein involved in the DNA double-strand break response, where it plays an important role in sensing damage and signaling to DNA repair machinery and cell cycle checkpoints. However, a number of recent papers, including ours have found that ATM also plays important roles outside of the nucleus, which may explain some of the phenotypic features seen in AT patients. Our research into mechanisms of TSC2 regulation helped uncover a pathway upstream of TSC2 that is regulated by cytoplasmic ATM in response to ROS initiated by ATM activation of LKB1 and AMPK. We found that TSC2 activation results in mTORC1 repression and subsequent induction of autophagy. Elucidation of this stress response pathway provides a molecular mechanism for ATM signaling in the cytoplasm and lays the groundwork for further studies on how ATM activity is regulated beyond DNA damage in different cellular compartments.
摘要
ATM 是遗传性共济失调毛细血管扩张症(AT)中突变的基因,它是一种熟知的参与 DNA 双链断裂反应的蛋白质,在感知损伤以及向 DNA 修复机制和细胞周期检查点发出信号方面发挥着重要作用。然而,包括我们的一些最新论文发现,ATM 也在核外发挥着重要作用,这也许可以解释 AT 患者的一些表型特征。我们对 TSC2 调控机制的研究有助于揭示一条由细胞质 ATM 调控的 TSC2 上游通路,该通路响应由 ATM 激活 LKB1 和 AMPK 引发的 ROS。我们发现,TSC2 的激活导致 mTORC1 受到抑制,随后引发自噬。阐明这条应激反应通路为 ATM 在细胞质中的信号转导提供了一个分子机制,并为进一步研究 ATM 活性在不同细胞区室中如何在 DNA 损伤以外进行调控奠定了基础。
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ATM-dependent chromatin changes silence transcription in cis to DNA double-strand breaks.ATM 依赖性染色质变化使 DNA 双链断裂顺式转录沉默。
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