DNAPK 抑制在异种移植模型中优先损害慢性低氧肿瘤细胞中辐射诱导的 DNA 双链断裂的修复。

DNAPK Inhibition Preferentially Compromises the Repair of Radiation-induced DNA Double-strand Breaks in Chronically Hypoxic Tumor Cells in Xenograft Models.

机构信息

CRUK & MRC Oxford Institute for Radiation Oncology, Department of Oncology, University of Oxford, Roosevelt Drive, Oxford, United Kingdom.

Cancer Research UK Newcastle Drug Discovery Unit, Translational and Clinical Research Institute, Newcastle University Centre for Cancer, Faculty of Medical Sciences, Newcastle University, Newcastle upon Tyne, United Kingdom.

出版信息

Mol Cancer Ther. 2021 Sep;20(9):1663-1671. doi: 10.1158/1535-7163.MCT-20-0857. Epub 2021 Jun 22.

DOI:10.1158/1535-7163.MCT-20-0857

PMID:34158348

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7611623/

Abstract

Radiation-induced DNA double-strand breaks (DSBs) can be repaired by homologous recombination (HR) and nonhomologous end joining (NHEJ). Recently, it has been found that chronic tumor hypoxia compromises HR repair of DNA DSBs but activates the NHEJ protein DNAPK. We therefore hypothesized that inhibition of DNAPK can preferentially potentiate the sensitivity of chronically hypoxic cancer cells to radiation through contextual synthetic lethality In this study, we investigated the impact of DNAPK inhibition by a novel selective DNAPK inhibitor, NU5455, on the repair of radiation-induced DNA DSBs in chronically hypoxic and nonhypoxic cells across a range of xenograft models. We found that NU5455 inhibited DSB repair following radiation in both chronically hypoxic and nonhypoxic tumor cells. Most importantly, the inhibitory effect was more pronounced in chronically hypoxic tumor cells than in nonhypoxic tumor cells. This is the first study to indicate that DNAPK inhibition may preferentially sensitize chronically hypoxic tumor cells to radiotherapy, suggesting a broader therapeutic window for transient DNAPK inhibition combined with radiotherapy.

摘要

辐射诱导的 DNA 双链断裂 (DSB) 可以通过同源重组 (HR) 和非同源末端连接 (NHEJ) 修复。最近发现，慢性肿瘤缺氧会损害 DNA DSB 的 HR 修复，但会激活 NHEJ 蛋白 DNAPK。因此，我们假设抑制 DNAPK 可以通过上下文合成致死作用，优先增强慢性缺氧癌细胞对辐射的敏感性。在这项研究中，我们研究了新型选择性 DNAPK 抑制剂 NU5455 对一系列异种移植模型中慢性缺氧和非缺氧细胞中辐射诱导的 DNA DSB 修复的影响。我们发现，NU5455 抑制了慢性缺氧和非缺氧肿瘤细胞中辐射后的 DSB 修复。最重要的是，这种抑制作用在慢性缺氧肿瘤细胞中比在非缺氧肿瘤细胞中更为明显。这是第一项表明 DNAPK 抑制可能优先使慢性缺氧肿瘤细胞对放疗敏感的研究，这表明短暂性 DNAPK 抑制与放疗相结合具有更广泛的治疗窗口。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d4b/9398115/ffb1dcbe2af2/1663fig1.jpg

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DNAPK 抑制在异种移植模型中优先损害慢性低氧肿瘤细胞中辐射诱导的 DNA 双链断裂的修复。

DNAPK Inhibition Preferentially Compromises the Repair of Radiation-induced DNA Double-strand Breaks in Chronically Hypoxic Tumor Cells in Xenograft Models.

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