DNA DOUBLE-STRAND BREAK REPAIR IS ACTIVATED IN CAROTID ARTERY RESTENOSIS

Luo T.; Cui S.; Bian C.; Yu X.

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DNA DOUBLE-STRAND BREAK REPAIR IS ACTIVATED IN CAROTID ARTERY RESTENOSIS

机译：在颈动脉再狭窄中进行了DNA双链断裂修复

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Carotid stenosis is a narrowing or constriction of the inner surface of the carotid artery, usually caused by atherosclerosis. In the past decades, carotid angioplasty and stenting (CAS) has been developed into a credible option for the patients with carotid stenosis. However, restenosis remains a severe and unsolved issue after CAS treatment. Currently, the molecular mechanisms involved in the restenosis are still largely unclear. In this study, we found that the double-strand DNA breaks (DSBs) were induced by oxidative stress in the human carotid artery with restenosis by examining the level of gamma H2AX in the artery tissues. We further analyzed the activation of DNA damage repair pathways in the carotid restenosis. Our results suggest that non-homologues end joining (NHEJ), but not homologous recombination (HR), is mainly activated in the artery tissues with restenosis. Our results may provide clues to develop a new therapeutic strategy for carotid artery restenosis following CAS treatment.

机译：颈动脉狭窄是通常由动脉粥样硬化引起的颈动脉内表面的狭窄或收缩。在过去的几十年中，颈动脉血管成形术和支架置入术（CAS）已经发展成为颈动脉狭窄患者的可靠选择。但是，再狭窄在CAS治疗后仍然是一个严重且尚未解决的问题。目前，参与再狭窄的分子机制仍不清楚。在这项研究中，我们通过检查动脉组织中γH2AX的水平，发现人再狭窄的颈动脉中的氧化应激诱导了双链DNA断裂（DSBs）。我们进一步分析了颈动脉再狭窄中DNA损伤修复途径的激活。我们的结果表明，非同源末端连接（NHEJ）而非同源重组（HR）主要在具有再狭窄的动脉组织中被激活。我们的研究结果可能为CAS治疗后发展颈动脉再狭窄的新治疗策略提供线索。

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《Cellular and molecular biology》 |2013年第suppla期|共7页
作者
Luo T.; Cui S.; Bian C.; Yu X.;
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正文语种 eng
中图分类分子生物学;
关键词
Carotid artery restenosis; Oxidative Stress; DNA damage; DNA damage repair;

机译：颈动脉再狭窄;氧化应激;DNA损伤;DNA损伤修复;

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1. DNA DOUBLE-STRAND BREAK REPAIR IS ACTIVATED IN CAROTID ARTERY RESTENOSIS [J] . Luo T., Cui S., Bian C., Cellular and molecular biology . 2013,第Suppla期

机译：在颈动脉再狭窄中进行了DNA双链断裂修复
2. Focus-formation of replication protein A, activation of checkpoint system and DNA repair synthesis induced by DNA double-strand breaks in Xenopus egg extract. [J] . Kobayashi T, Tada S, Tsuyama T, Journal of Cell Science . 2002,第Pta15期

机译：非洲爪蟾卵提取物中DNA双链断裂诱导的复制蛋白A的焦点形成，检查点系统的激活和DNA修复合成。
3. Focus-formation of replication protein A, activation of checkpoint system and DNA repair synthesis induced by DNA double-strand breaks in Xenopus egg extract [J] . Kobayashi T., Tada S., Tsuyama T., Journal of Cell Science . 2002,第15期

机译：非洲爪蟾卵提取物中DNA双链断裂诱导的复制蛋白A的聚焦形成，检查点系统的激活和DNA修复合成
4. Repairing DNA double-strand breaks by the prokaryotic non-homologous end-joining pathway [C] . Nigel C. Brissett, Aidan J. Doherty Biochemical Society Symposium . 2009

机译：通过原核非同源终端连接途径修复DNA双链断裂
5. The patchy human genome: DNA double-strand breaks in human cells can be repaired by the capture of other DNA fragments. [D] . Little, Kevin C. E. 2005

机译：斑驳的人类基因组：人类细胞中的DNA双链断裂可以通过捕获其他DNA片段来修复。
6. DNA Double-strand Breaks Lead to Activation of Hypermethylated in Cancer 1 (HIC1) by SUMOylation to Regulate DNA Repair [O] . Vanessa Dehennaut, Ingrid Loison, Marion Dubuissez, 2013

机译：DNA双链断裂通过SUMOylation调节DNA修复导致癌症1（HIC1）中的高甲基化激活
7. DNA Double-strand Breaks Lead to Activation of Hypermethylated in Cancer 1 (HIC1) by SUMOylation to Regulate DNA Repair [O] . Vanessa Dehennaut, Ingrid Loison, Marion Dubuissez, 2013

机译：DNA双链断裂导致癌症1（HIC1）在癌症1（HIC1）中激活，以调节DNA修复
8. DNA Ligase I is an In Vivo Substrate of DNA-Dependent Protein Kinase and is Activated by Phosphorylation in Response to DNA Double-Strand Breaks [R] . Bhat, K. R. , Benton, B. J. , Ray, R. 2006

机译：DNa连接酶I是DNa依赖性蛋白激酶的体内底物，并通过磷酸化活化以响应DNa双链断裂

DNA DOUBLE-STRAND BREAK REPAIR IS ACTIVATED IN CAROTID ARTERY RESTENOSIS

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