Knockdown of the nucleoporin Nup50 protects cells against ionizing radiation through enhancing DNA-PKcs-mediated DNA damage repair

Q1 Health Professions Radiation Medicine and Protection Pub Date : 2024-07-01 DOI:10.1016/j.radmp.2024.06.006
Zhijie Wan , Jingwen Gu , Songyun Zhao , Hang Jia , Tingting Liu , Yuanyuan Chen , Yanyong Yang
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Abstract

Objective

To investigate the effect and mechanism of Nup50 on radiation-induced DNA damage repair to radiation and explore the potential role of Nup50 as radioprotective target.

Methods

The Nup50 gene was knocked down in HUVEC cells using lentiviruses. Colony formation, CCK-8, and flow cytometry were performed to determine the viability, proliferation and apoptosis of HUVEC cells treated with γ-rays,respectively. The extent of DNA damage was evaluated by using comet assay and immunofluorescence staining against γ-H2AX. In addition, we explored the role of Nup50 in DNA damage response (DDR) pathways through western blotting assay. Finally, nuclear and chromatin fractionation were performed to determine the potential molecular mechanism underlying the radiation protection function of Nup50 knockdown.

Results

Nup50 knockdown increased the cellular resistance to ionizing radiation. The CCK-8 data showed that cell viability was significantly increased in the Nup50 knockdown group after radiation (t ​= ​4.23, P ​< ​0.01). The Nup50 knockdown group also showed more survived colonies (t ​= ​10.06, P ​< ​0.001), less apoptosis rate (t ​= ​3.78, P ​< ​0.05) and less unrepaired DNA damage. Furthermore, Nup50 knockdown increased radiation-activated phosphorylation levels of DNA-PKcs in HUVEC cells. Finally, the nuclear and chromatin fractionation data showed that inhibiting Nup50 increased the recruitment of DNA-PKcs to chromatin after DNA damage.

Conclusions

Our findings revealed that Nup50 knockdown promoted radioresistance in normal HUVEC cells by regulating DNA-PKcs pathway, suggesting Nup50 as a potential target for radiation protection.

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敲除核蛋白 Nup50 可通过加强 DNA-PKcs 介导的 DNA 损伤修复保护细胞免受电离辐射的伤害
方法 用慢病毒敲除 HUVEC 细胞中的 Nup50 基因。方法利用慢病毒敲除 HUVEC 细胞中的 Nup50 基因,通过菌落形成、CCK-8 和流式细胞术检测经γ射线处理的 HUVEC 细胞的活力、增殖和凋亡。彗星试验和针对γ-H2AX的免疫荧光染色评估了DNA损伤的程度。此外,我们还通过Western印迹分析探讨了Nup50在DNA损伤应答(DDR)通路中的作用。结果Nup50敲除增加了细胞对电离辐射的抵抗力。CCK-8数据显示,Nup50敲除组细胞活力在辐射后显著增加(t = 4.23,P <0.01)。Nup50 敲除组还显示出更多的存活菌落(t = 10.06,P < 0.001)、更低的细胞凋亡率(t = 3.78,P < 0.05)和更少的未修复 DNA 损伤。此外,Nup50基因敲除增加了HUVEC细胞中DNA-PKcs的辐射激活磷酸化水平。最后,核分馏和染色质分馏数据显示,抑制 Nup50 增加了 DNA 损伤后 DNA-PKcs 对染色质的招募。
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来源期刊
Radiation Medicine and Protection
Radiation Medicine and Protection Health Professions-Emergency Medical Services
CiteScore
2.10
自引率
0.00%
发文量
0
审稿时长
103 days
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