Inhibition of intracellular ATP synthesis impairs the recruitment of homologous recombination factors after ionizing radiation.

IF 1.9 4区 医学 Q2 BIOLOGY
Ryota Hayashi, Hikaru Okumura, Mayu Isono, Motohiro Yamauchi, Daiki Unami, Rahmartani Tania Lusi, Masamichi Yamamoto, Yu Kato, Yuki Uchihara, Atsushi Shibata
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Abstract

Ionizing radiation (IR)-induced double-strand breaks (DSBs) are primarily repaired by non-homologous end joining or homologous recombination (HR) in human cells. DSB repair requires adenosine-5'-triphosphate (ATP) for protein kinase activities in the multiple steps of DSB repair, such as DNA ligation, chromatin remodeling, and DNA damage signaling via protein kinase and ATPase activities. To investigate whether low ATP culture conditions affect the recruitment of repair proteins at DSB sites, IR-induced foci were examined in the presence of ATP synthesis inhibitors. We found that p53 binding protein 1 foci formation was modestly reduced under low ATP conditions after IR, although phosphorylated histone H2AX and mediator of DNA damage checkpoint 1 foci formation were not impaired. Next, we examined the foci formation of breast cancer susceptibility gene I (BRCA1), replication protein A (RPA) and radiation 51 (RAD51), which are HR factors, in G2 phase cells following IR. Interestingly, BRCA1 and RPA foci in the G2 phase were significantly reduced under low ATP conditions compared to that under normal culture conditions. Notably, RAD51 foci were drastically impaired under low ATP conditions. These results suggest that HR does not effectively progress under low ATP conditions; in particular, ATP shortages impair downstream steps in HR, such as RAD51 loading. Taken together, these results suggest that the maintenance of cellular ATP levels is critical for DNA damage response and HR progression after IR.

电离辐射后,抑制细胞内 ATP 合成会损害同源重组因子的招募。
在人类细胞中,电离辐射(IR)诱导的双链断裂(DSB)主要通过非同源末端连接或同源重组(HR)进行修复。在DSB修复的多个步骤中,如DNA连接、染色质重塑以及通过蛋白激酶和ATP酶活性传递DNA损伤信号等,DSB修复都需要腺苷-5'-三磷酸(ATP)来促进蛋白激酶活动。为了研究低ATP培养条件是否会影响DSB位点修复蛋白的招募,我们在ATP合成抑制剂存在的情况下检测了IR诱导的病灶。我们发现,在IR后的低ATP条件下,p53结合蛋白1病灶的形成略有减少,但磷酸化组蛋白H2AX和DNA损伤检查点介质1病灶的形成并未受到影响。接下来,我们研究了红外照射后 G2 期细胞中乳腺癌易感基因 I(BRCA1)、复制蛋白 A(RPA)和辐射 51(RAD51)这些 HR 因子的病灶形成情况。有趣的是,与正常培养条件相比,低ATP条件下G2期细胞中的BRCA1和RPA灶明显减少。值得注意的是,在低ATP条件下,RAD51病灶也大幅减少。这些结果表明,在低 ATP 条件下,HR 不能有效地进行;特别是,ATP 的缺乏会影响 HR 的下游步骤,如 RAD51 的加载。综上所述,这些结果表明,细胞 ATP 水平的维持对于红外损伤后的 DNA 损伤反应和 HR 进展至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.60
自引率
5.00%
发文量
86
审稿时长
4-8 weeks
期刊介绍: The Journal of Radiation Research (JRR) is an official journal of The Japanese Radiation Research Society (JRRS), and the Japanese Society for Radiation Oncology (JASTRO). Since its launch in 1960 as the official journal of the JRRS, the journal has published scientific articles in radiation science in biology, chemistry, physics, epidemiology, and environmental sciences. JRR broadened its scope to include oncology in 2009, when JASTRO partnered with the JRRS to publish the journal. Articles considered fall into two broad categories: Oncology & Medicine - including all aspects of research with patients that impacts on the treatment of cancer using radiation. Papers which cover related radiation therapies, radiation dosimetry, and those describing the basis for treatment methods including techniques, are also welcomed. Clinical case reports are not acceptable. Radiation Research - basic science studies of radiation effects on livings in the area of physics, chemistry, biology, epidemiology and environmental sciences. Please be advised that JRR does not accept any papers of pure physics or chemistry. The journal is bimonthly, and is edited and published by the JRR Editorial Committee.
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