DNA依赖蛋白激酶催化亚基在热疗对肝癌HepG2细胞系的放射增敏作用中的机制研究

DNA-PKcs subunits in radiosensitization by hyperthermia on hepatocellular carcinoma hepG2 cell line.

作者信息

Zeng Zhao-Chong, Jiang Guo-Liang, Wang Guo-Min, Tang Zhao-You, Curran Walter J, Iliakis George

机构信息

Department of Radiation Oncology, Zhongshan Hospital, Fudan University, Shanghai, 200032, China.

出版信息

World J Gastroenterol. 2002 Oct;8(5):797-803. doi: 10.3748/wjg.v8.i5.797.

DOI:10.3748/wjg.v8.i5.797

PMID:12378618

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4656564/

Abstract

AIM

To investigate the role of DNA-PKcs subunits in radiosensitization by hyperthermia on hepatocellular carcinoma HepG(2) cell lines.

METHODS

Hep G(2) cells were exposed to hyperthermia and irradiation. Hyperthermia was given at 45.5 degrees C. Cell survival was determined by an in vitro clonogenic assay for the cells treated with or without hyperthermia at various time points. DNA DSB rejoining was measured using asymmetric field inversion gel electrophoresis (AFIGE). The DNA-PKcs activities were measured using DNA-PKcs enzyme assay system.

RESULTS

Hyperthermia can significantly enhance irradiation-killing cells. Thermal enhancement ratio as calculated at 10 % survival was 2.02. The difference in radiosensitivity between two treatment modes manifested as a difference in the alpha components and the almost same beta components, which alpha value was considerably higher in the cells of combined radiation and hyperthermia as compared with irradiating cells (1.07 Gy(-1) versus 0.44 Gy(-1)). Survival fraction showed 1 logarithm increase after an 8-hour interval between heat and irradiation, whereas DNA-PKcs activity did not show any recovery. The cells were exposed to heat 5 minutes only, DNA-PKcs activity was inhibited at the nadir, even though the exposure time was lengthened. Whereas the ability of DNA DSB rejoining was inhibited with the increase of the length of hyperthermic time. The repair kinetics of DNA DSB rejoining after treatment with Wortmannin is different from the hyperthermic group due to the striking high slow rejoining component.

CONCLUSION

Determination with the cell extracts and the peptide phosphorylation assay, DNA-PKcs activity was inactivated by heat treatment at 45.5 degrees C, and could not restore. Cell survival is not associated with the DNA-PKcs inactivity after heat. DNA-PKcs is not a unique factor affecting the DNA DSB repair. This suggests that DNA-PKcs do not play a crucial role in the enhancement of cellular radiosensitivity by hyperthermia.

摘要

目的

探讨DNA-PKcs亚基在热疗对肝癌HepG(2)细胞系放射增敏中的作用。

方法

将Hep G(2)细胞暴露于热疗和辐射中。热疗温度为45.5℃。通过体外克隆形成试验测定在不同时间点接受或未接受热疗的细胞的存活情况。使用不对称场反转凝胶电泳（AFIGE）测量DNA双链断裂（DSB）的重新连接。使用DNA-PKcs酶分析系统测量DNA-PKcs活性。

结果

热疗可显著增强辐射杀伤细胞的能力。在10%存活时计算的热增强比为2.02。两种治疗模式之间的放射敏感性差异表现为α成分的差异和几乎相同的β成分，联合放疗和热疗组细胞的α值明显高于单纯放疗组细胞（1.07 Gy(-1)对0.44 Gy(-1)）。热疗和放疗间隔8小时后，存活分数增加1个对数，而DNA-PKcs活性未显示任何恢复。仅将细胞暴露于热疗5分钟，DNA-PKcs活性在最低点受到抑制，即使暴露时间延长也是如此。而DNA DSB重新连接的能力随着热疗时间的延长而受到抑制。渥曼青霉素处理后DNA DSB重新连接的修复动力学与热疗组不同，因为存在显著高的缓慢重新连接成分。

结论

通过细胞提取物和肽磷酸化分析测定，DNA-PKcs活性在45.5℃热处理后失活且无法恢复。热疗后细胞存活与DNA-PKcs无活性无关。DNA-PKcs不是影响DNA DSB修复的唯一因素。这表明DNA-PKcs在热疗增强细胞放射敏感性中不发挥关键作用。

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