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本文引用的文献

1
Homologous recombination repair is essential for repair of vosaroxin-induced DNA double-strand breaks.同源重组修复对于修复伏沙罗星诱导的DNA双链断裂至关重要。
Oncotarget. 2010 Nov;1(7):606-619. doi: 10.18632/oncotarget.195.
2
ATM-independent, high-fidelity nonhomologous end joining predominates in human embryonic stem cells.不依赖ATM的高保真非同源末端连接在人类胚胎干细胞中占主导地位。
Aging (Albany NY). 2010 Sep;2(9):582-96. doi: 10.18632/aging.100197.
3
The function of classical and alternative non-homologous end-joining pathways in the fusion of dysfunctional telomeres.经典和替代性非同源末端连接途径在功能失调端粒融合中的作用。
EMBO J. 2010 Aug 4;29(15):2598-610. doi: 10.1038/emboj.2010.142. Epub 2010 Jun 29.
4
53BP1 loss rescues BRCA1 deficiency and is associated with triple-negative and BRCA-mutated breast cancers.53BP1 缺失可挽救 BRCA1 缺陷,并与三阴性和 BRCA 突变型乳腺癌相关。
Nat Struct Mol Biol. 2010 Jun;17(6):688-95. doi: 10.1038/nsmb.1831. Epub 2010 May 9.
5
53BP1 regulates DNA resection and the choice between classical and alternative end joining during class switch recombination.53BP1 在类别转换重组过程中调控 DNA 切除以及经典和替代性末端连接之间的选择。
J Exp Med. 2010 Apr 12;207(4):855-65. doi: 10.1084/jem.20100244. Epub 2010 Apr 5.
6
53BP1 inhibits homologous recombination in Brca1-deficient cells by blocking resection of DNA breaks.53BP1 通过阻断 DNA 断裂的切除来抑制 BRCA1 缺陷细胞中的同源重组。
Cell. 2010 Apr 16;141(2):243-54. doi: 10.1016/j.cell.2010.03.012. Epub 2010 Apr 1.
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Diseases of the nuclear envelope.核膜疾病。
Cold Spring Harb Perspect Biol. 2010 Feb;2(2):a000760. doi: 10.1101/cshperspect.a000760.
8
SIRT6 stabilizes DNA-dependent protein kinase at chromatin for DNA double-strand break repair.SIRT6使染色质上的DNA依赖性蛋白激酶稳定,以进行DNA双链断裂修复。
Aging (Albany NY). 2009 Jan 15;1(1):109-21. doi: 10.18632/aging.100011.
9
Sirtuins at the breaking point: SIRT6 in DNA repair.处于临界点的沉默调节蛋白:DNA修复中的SIRT6
Aging (Albany NY). 2009 Jan 20;1(1):12-6. doi: 10.18632/aging.100014.
10
Telomere-dependent and telomere-independent origins of endogenous DNA damage in tumor cells.肿瘤细胞内源性DNA损伤的端粒依赖性和端粒非依赖性起源
Aging (Albany NY). 2009 Feb 4;1(2):212-8. doi: 10.18632/aging.100019.

A 型核纤层蛋白在 DNA 双链断裂修复中的双重作用。

A dual role for A-type lamins in DNA double-strand break repair.

机构信息

Radiation and Cancer Biology Division, Department of Radiation Oncology, Washington University School of Medicine, St. Louis, MO, USA.

出版信息

Cell Cycle. 2011 Aug 1;10(15):2549-60. doi: 10.4161/cc.10.15.16531.

DOI:10.4161/cc.10.15.16531
PMID:21701264
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3180193/
Abstract

A-type lamins are emerging as regulators of nuclear organization and function. Changes in their expression are associated with cancer and mutations are linked to degenerative diseases -laminopathies-. Although a correlation exists between alterations in lamins and genomic instability, the molecular mechanisms remain largely unknown. We previously found that loss of A-type lamins leads to degradation of 53BP1 protein and defective long-range non-homologous end-joining (NHEJ) of dysfunctional telomeres. Here, we determined how loss of A-type lamins affects the repair of short-range DNA double-strand breaks (DSBs) induced by ionizing radiation (IR). We find that lamins deficiency allows activation of the DNA damage response, but compromises the accumulation of 53BP1 at IR-induced foci (IRIF), hindering the fast phase of repair corresponding to classical-NHEJ. Importantly, reconstitution of 53BP1 is sufficient to rescue long-range and short-range NHEJ. Moreover, we demonstrate an unprecedented role for A-type lamins in the maintenance of homologous recombination (HR). Depletion of lamins compromises HR by a mechanism involving transcriptional downregulation of BRCA1 and RAD51 by the repressor complex formed by the Rb family member p130 and E2F4. In line with the DNA repair defects, lamins-deficient cells exhibit increased radiosensitivity. This study demonstrates that A-type lamins promote genomic stability by maintaining the levels of proteins with key roles in DNA DSBs repair by NHEJ and HR. Our results suggest that silencing of A-type lamins by DNA methylation in some cancers could contribute to the genomic instability that drives malignancy. In addition, lamins-deficient tumor cells could represent a good target for radiation therapy.

摘要

A型核纤层蛋白正在成为核组织和功能的调节因子。它们的表达变化与癌症有关,突变与退行性疾病(核纤层病)有关。尽管核纤层蛋白的改变与基因组不稳定性之间存在相关性,但分子机制仍知之甚少。我们之前发现,A型核纤层蛋白的缺失会导致 53BP1 蛋白的降解,并导致功能失调的端粒的长程非同源末端连接(NHEJ)缺陷。在这里,我们确定了 A 型核纤层蛋白的缺失如何影响电离辐射(IR)诱导的短程 DNA 双链断裂(DSB)的修复。我们发现,核纤层蛋白的缺失允许 DNA 损伤反应的激活,但损害了 53BP1 在 IR 诱导焦点(IRIF)处的积累,阻碍了对应于经典-NHEJ 的快速修复阶段。重要的是,53BP1 的重建足以挽救长程和短程 NHEJ。此外,我们证明了 A 型核纤层蛋白在维持同源重组(HR)中的前所未有的作用。核纤层蛋白的缺失通过涉及由 Rb 家族成员 p130 和 E2F4 形成的抑制复合物下调 BRCA1 和 RAD51 的转录来损害 HR。与 DNA 修复缺陷一致,核纤层蛋白缺陷细胞表现出增加的放射敏感性。这项研究表明,A型核纤层蛋白通过维持在 NHEJ 和 HR 中修复 DNA DSBs 的关键蛋白的水平来促进基因组稳定性。我们的研究结果表明,在某些癌症中,DNA 甲基化对 A 型核纤层蛋白的沉默可能导致驱动恶性肿瘤的基因组不稳定性。此外,核纤层蛋白缺陷的肿瘤细胞可能是放射治疗的一个很好的靶点。