在生理氧和常氧条件下培养的食管上皮细胞的细胞蛋白质组学分析显示辐射反应的高度相关性

Q1 Health Professions Radiation Medicine and Protection Pub Date : 2023-06-01 DOI:10.1016/j.radmp.2023.03.002

Hui Luo , Yanan Sun , Liuxiang Wang , Ran Zhao , Beggs James

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引用次数: 0

摘要

目的探讨自然氧和常氧条件下培养的食管上皮细胞对辐射的反应和蛋白质组学特征。方法采用常氧(21%)和自然氧(4%)条件培养人食管上皮细胞。通过克隆实验来评价SHEE细胞的辐射反应。对正常缺氧和生理缺氧条件下维持的SHEE细胞进行细胞蛋白质组学分析，以确定差异表达蛋白。然后，对鉴定的差异表达蛋白进行Western blot验证。结果正常缺氧条件下的shee细胞的辐射应答比正常缺氧条件下的明显增加(辐照剂量≥10 Gy, P<0.05)。在收集的样品中鉴定出超过1200种非冗余蛋白。结果显示，42个蛋白下调，45个蛋白上调，其中氧化磷酸化是最显著富集的途径。当细胞在常氧条件下培养时，抗氧化基因的诱导似乎有助于形成适应高氧环境的表型。进一步分析证实NRF2、BIP、VCP、SOD1和YAP1是该表型的关键调节因子。结论与生理缺氧相比，常氧环境能增强细胞对辐射的反应。本研究可刺激体内微环境，为辐射诱导的正常组织损伤提供依据。

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Cellular proteomic profiling of esophageal epithelial cells cultured under physioxia or normoxia reveals high correlation of radiation response

Objective

To investigate the radiation response and proteomic profiling of esophageal epithelial cells cultured under physioxia and normoxia.

Methods

The human immortalized normal esophageal epithelial cell line SHEE cells were cultured under normoxia (21%) and physioxia (4%), respectively. A clonogenic assay was performed to evaluate the radiation response of SHEE cells. Cellular proteomic profiling of SHEE cells maintained under physioxia and normoxia was conducted to determine the differentially expressed proteins. Then, the identified differentially expressed proteins were validated by Western blot.

Results

SHEE cells exposed to normoxia showed an increased radiation response compared to physioxia (irradiation dose ≥10 Gy, P< 0.05). Over 1200 non-redundant proteins were identified in the collected samples. Protein expression was compared between physioxia and normoxia, 42 proteins were downregulated and 45 proteins upregulated, in which oxidative phosphorylation was the most significantly enriched pathway. When cells were cultured under normoxia conditions, the induction of antioxidant genes appeared to contribute to form a phenotype adapted to the environment with high oxygen-content. Further analysis validated NRF2, BIP, VCP, SOD1, and YAP1 were the key regulators of this phenotype.

Conclusions

Compared with physioxia, normoxic cell culture condition can enhance the radiation response. This study could stimulate in vivo microenvironment, and provide a basis for radiation-induced normal tissue damage.

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