NHEJ 的系统建模揭示了 Ku70/80 的氧化还原调控在 DNA 损伤焦点动力学中的重要性。

Systems modelling of NHEJ reveals the importance of redox regulation of Ku70/80 in the dynamics of dna damage foci.

机构信息

Institute for Ageing and Health, Newcastle University, Campus for Ageing and Vitality, Newcastle upon Tyne, United Kingdom.

出版信息

PLoS One. 2013;8(2):e55190. doi: 10.1371/journal.pone.0055190. Epub 2013 Feb 6.

DOI:10.1371/journal.pone.0055190

PMID:23457464

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3566652/

Abstract

The presence of DNA double-stranded breaks in a mammalian cell typically activates the Non-Homologous End Joining (NHEJ) pathway to repair the damage and signal to downstream systems that govern cellular decisions such as apoptosis or senescence. The signalling system also stimulates effects such as the generation of reactive oxygen species (ROS) which in turn feed back into the damage response. Although the overall process of NHEJ is well documented, we know little of the dynamics and how the system operates as a whole. We have developed a computational model which includes DNA Protein Kinase (DNA-PK) dependent NHEJ (D-NHEJ) and back-up NHEJ mechanisms (B-NHEJ) and use it to explain the dynamic response to damage induced by different levels of gamma irradiation in human fibroblasts. Our work suggests that the observed shift from fast to slow repair of DNA damage foci at higher levels of damage cannot be explained solely by inherent stochasticity in the NHEJ system. Instead, our model highlights the importance of Ku oxidation which leads to increased Ku dissociation rates from DNA damage foci and shifts repair in favour of the less efficient B-NHEJ system.

摘要

哺乳动物细胞中 DNA 双链断裂的存在通常会激活非同源末端连接（NHEJ）途径来修复损伤，并向控制细胞决策（如细胞凋亡或衰老）的下游系统发出信号。该信号系统还会刺激活性氧（ROS）的产生等效应，而 ROS 反过来又会反馈到损伤反应中。尽管 NHEJ 的整体过程已有详细记录，但我们对其动力学和系统作为一个整体的运作方式知之甚少。我们开发了一个包含 DNA 蛋白激酶（DNA-PK）依赖性 NHEJ（D-NHEJ）和备用 NHEJ 机制（B-NHEJ）的计算模型，并使用该模型来解释人成纤维细胞中不同水平的γ辐射诱导的损伤所产生的动态响应。我们的工作表明，在更高水平的损伤下，观察到 DNA 损伤焦点从快速修复到缓慢修复的转变不能仅仅用 NHEJ 系统固有的随机性来解释。相反，我们的模型强调了 Ku 氧化的重要性，这导致 Ku 从 DNA 损伤焦点的解离速率增加，并促使修复向效率较低的 B-NHEJ 系统转移。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/01c4/3566652/8d311b23810e/pone.0055190.g001.jpg

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NHEJ 的系统建模揭示了 Ku70/80 的氧化还原调控在 DNA 损伤焦点动力学中的重要性。

Systems modelling of NHEJ reveals the importance of redox regulation of Ku70/80 in the dynamics of dna damage foci.

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