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碱基切除修复在TET诱导的HEK293T细胞全基因组DNA去甲基化中的作用极小。

Minimal role of base excision repair in TET-induced global DNA demethylation in HEK293T cells.

作者信息

Jin Chunlei, Qin Taichun, Barton Michelle Craig, Jelinek Jaroslav, Issa Jean-Pierre J

机构信息

a Fels Institute for Cancer Research and Molecular Biology; Temple University ; Philadelphia , PA USA.

b Department of Epigenetics and Molecular Carcinogenesis ; The University of Texas MD Anderson Cancer Center ; Houston , TX USA.

出版信息

Epigenetics. 2015;10(11):1006-13. doi: 10.1080/15592294.2015.1091145.

DOI:10.1080/15592294.2015.1091145
PMID:26440216
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4844212/
Abstract

Oxidation of 5-methylcytosine by TET family proteins can induce DNA replication-dependent (passive) DNA demethylation and base excision repair (BER)-based (active) DNA demethylation. The balance of active vs. passive TET-induced demethylation remains incompletely determined. In the context of large scale DNA demethylation, active demethylation may require massive induction of the DNA repair machinery and thus compromise genome stability. To study this issue, we constructed a tetracycline-controlled TET-induced global DNA demethylation system in HEK293T cells. Upon TET overexpression, we observed induction of DNA damage and activation of a DNA damage response; however, BER genes are not upregulated to promote DNA repair. Depletion of TDG (thymine DNA glycosylase) or APEX1 (apurinic/apyrimidinic endonuclease 1), two key BER enzymes, enhances rather than impairs global DNA demethylation, which can be explained by stimulated proliferation. By contrast, growth arrest dramatically blocks TET-induced global DNA demethylation. Thus, in the context of TET-induction in HEK293T cells, the DNA replication-dependent passive mechanism functions as the predominant pathway for global DNA demethylation. In the same context, BER-based active demethylation is markedly restricted by limited BER upregulation, thus potentially preventing a disastrous DNA damage response to extensive active DNA demethylation.

摘要

TET家族蛋白对5-甲基胞嘧啶的氧化可诱导DNA复制依赖性(被动)DNA去甲基化和基于碱基切除修复(BER)的(主动)DNA去甲基化。主动与被动TET诱导的去甲基化之间的平衡仍未完全确定。在大规模DNA去甲基化的情况下,主动去甲基化可能需要大量诱导DNA修复机制,从而损害基因组稳定性。为了研究这个问题,我们在HEK293T细胞中构建了一个四环素控制的TET诱导的全基因组DNA去甲基化系统。TET过表达后,我们观察到DNA损伤的诱导和DNA损伤反应的激活;然而,BER基因并未上调以促进DNA修复。两种关键的BER酶——胸腺嘧啶DNA糖基化酶(TDG)或脱嘌呤/脱嘧啶内切酶1(APEX1)的缺失增强而非损害全基因组DNA去甲基化,这可以通过刺激增殖来解释。相比之下,生长停滞显著阻断TET诱导的全基因组DNA去甲基化。因此,在HEK293T细胞中TET诱导的情况下,DNA复制依赖性被动机制是全基因组DNA去甲基化的主要途径。在相同情况下,基于BER的主动去甲基化受到BER上调受限的显著限制,从而可能防止对广泛的主动DNA去甲基化产生灾难性的DNA损伤反应。

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本文引用的文献

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TET1 is a maintenance DNA demethylase that prevents methylation spreading in differentiated cells.TET1是一种维持性DNA去甲基化酶,可防止甲基化在分化细胞中扩散。
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Thymine DNA glycosylase can rapidly excise 5-formylcytosine and 5-carboxylcytosine: potential implications for active demethylation of CpG sites.胸腺嘧啶 DNA 糖基化酶可快速切除 5-甲酰胞嘧啶和 5-羧基胞嘧啶:对 CpG 位点的活性去甲基化的潜在影响。
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