Tumor hypoxia as a driving force in genetic instability

机译：肿瘤缺氧是遗传不稳定的驱动力

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Sub-regions of hypoxia exist within all tumors and the presence of intratumoral hypoxia has an adverse impact on patient prognosis. Tumor hypoxia can increase metastatic capacity and lead to resistance to chemotherapy and radiotherapy. Hypoxia also leads to altered transcription and translation of a number of DNA damage response and repair genes. This can lead to inhibition of recombination-mediated repair of DNA double-strand breaks. Hypoxia can also increase the rate of mutation. Therefore, tumor cell adaptation to the hypoxic microenvironment can drive genetic instability and malignant progression. In this review, we focus on hypoxia-mediated genetic instability in the context of aberrant DNA damage signaling and DNA repair. Additionally, we discuss potential therapeutic approaches to specifically target repair-deficient hypoxic tumor cells.

机译：缺氧的子区域存在于所有肿瘤中，并且肿瘤内缺氧的存在对患者的预后产生不利影响。肿瘤缺氧可增加转移能力并导致对化学疗法和放射疗法的抵抗。缺氧还导致许多DNA损伤反应和修复基因的转录和翻译发生改变。这可能导致抑制重组介导的DNA双链断裂修复。缺氧也可以增加突变率。因此，肿瘤细胞对缺氧微环境的适应可以驱动遗传不稳定和恶性进展。在这篇综述中，我们重点研究异常DNA损伤信号传导和DNA修复中低氧介导的遗传不稳定性。此外，我们讨论潜在的治疗方法，专门针对修复缺陷的缺氧肿瘤细胞。

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期刊名称 Genome Integrity
作者
Kaisa R Luoto; Ramya Kumareswaran; Robert G Bristow;
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作者单位

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年(卷),期 2013(4),-1
年度 2013
页码 5
总页数 15
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
Hypoxia Genetic instability DNA damage DNA double-strand breaks DNA repair;

机译：缺氧;遗传不稳定;DNA损伤;DNA双链断裂;DNA修复;

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1. 中国人原发性胆囊肿瘤nm23H1基因遗传不稳定性的研究 [J] . 卢海英, 张国强, 李继承分子细胞生物学报（英文版） . 2006,第003期
2. 中国人卵巢上皮性肿瘤nm23H1基因遗传不稳定性的研究 [J] . 杨月琴, 李继承, 李小红, 分子细胞生物学报（英文版） . 2005,第003期
3. Tumor hypoxia as a driving force in genetic instability [J] . Kaisa R Luoto, Ramya Kumareswaran, Robert G Bristow Genome Integrity . 2013,第1期

机译：肿瘤缺氧是遗传不稳定的驱动力
4. Tumor hypoxia as a driving force in genetic instability [J] . Kaisa R Luoto, Ramya Kumareswaran, Robert G Bristow Genome Integrity . 2013,第1期

机译：肿瘤缺氧是遗传不稳定的驱动力
5. Expression-based analyses indicate a central role for hypoxia in driving tumor plasticity through microenvironment remodeling and chromosomal instability [J] . Anqi Jing, Frederick S. Vizeacoumar, Sreejit Parameswaran, NPJ systems biology and applications. . 2018,第1期

机译：基于表达的分析表明低氧在通过微环境重构和染色体不稳定性驱动肿瘤可塑性中的核心作用
6. Defect Creation Stimulated by Thermally Activated Hole Trapping as the Driving Force Behind Negative Bias Temperature Instability in SiO_2, SiON, and High-k Gate Stacks [C] . Tibor Grasser, Ben Kaczer, Thomas Aichinger, IEEE International Integrated Reliability Workshop . 2008

机译：由于在SIO_2，SION和高k栅极堆叠中，通过热敏孔捕获作为驱动力而产生的缺陷创建。
7. Hypoxia, DNA repair gene expression and genetic instability in the tumor microenvironment. [D] . Bindra, Ranjit Singh. 2005

机译：肿瘤微环境中的缺氧，DNA修复基因表达和遗传不稳定。
8. Expression-based analyses indicate a central role for hypoxia in driving tumor plasticity through microenvironment remodeling and chromosomal instability [O] . Anqi Jing, Frederick S. Vizeacoumar, Sreejit Parameswaran, 2018

机译：基于表达的分析表明低氧在通过微环境重构和染色体不稳定驱动肿瘤可塑性中的核心作用
9. Tumor hypoxia as a driving force in genetic instability [O] . 2013

机译：肿瘤缺氧是遗传不稳定的驱动力
10. Hypoxia as a Driving Force for Genetic Instability During Breast Tumorigenesis [R] . Abraham, R. T. 2005

机译：缺氧作为乳腺肿瘤发生过程中遗传不稳定的驱动力

Tumor hypoxia as a driving force in genetic instability

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