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核因子κB1/RelA在大气氧水平下介导人肺上皮细胞炎症。

Nuclear Factor κB1/RelA Mediates Inflammation in Human Lung Epithelial Cells at Atmospheric Oxygen Levels.

作者信息

Jagannathan Lakshmanan, Jose Cynthia C, Arita Adriana, Kluz Thomas, Sun Hong, Zhang Xiaoru, Yao Yixin, Kartashov Andrey V, Barski Artem, Costa Max, Cuddapah Suresh

机构信息

Department of Environmental Medicine, New York University School of Medicine, Tuxedo, New York.

Division of Allergy and Immunology and Human Genetics, Cincinnati Children's Hospital Medical Center, Cincinnati, Ohio.

出版信息

J Cell Physiol. 2016 Jul;231(7):1611-20. doi: 10.1002/jcp.25262. Epub 2015 Dec 10.

DOI:10.1002/jcp.25262
PMID:26588041
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4845657/
Abstract

Oxygen levels range from 2% to 9% in vivo. Atmospheric O2 levels (21%) are known to induce cell proliferation defects and cellular senescence in primary cell cultures. However, the mechanistic basis of the deleterious effects of higher O2 levels is not fully understood. On the other hand, immortalized cells including cancer cell lines, which evade cellular senescence are normally cultured at 21% O2 and the effects of higher O2 on these cells are understudied. Here, we addressed this problem by culturing immortalized human bronchial epithelial (BEAS-2B) cells at ambient atmospheric, 21% O2 and lower, 10% O2. Our results show increased inflammatory response at 21% O2 but not at 10% O2. We found higher RelA binding at the NF-κB1/RelA target gene promoters as well as upregulation of several pro-inflammatory cytokines in cells cultured at 21% O2. RelA knockdown prevented the upregulation of the pro-inflammatory cytokines at 21% O2, suggesting NF-κB1/RelA as a major mediator of inflammatory response in cells cultured at 21% O2. Interestingly, unlike the 21% O2 cultured cells, exposure of 10% O2 cultured cells to H2O2 did not elicit inflammatory response, suggesting increased ability to tolerate oxidative stress in cells cultured at lower O2 levels.

摘要

体内氧气水平在2%至9%之间。已知大气中的氧气水平(21%)会在原代细胞培养中诱导细胞增殖缺陷和细胞衰老。然而,较高氧气水平产生有害影响的机制基础尚未完全了解。另一方面,包括癌细胞系在内的永生化细胞能够逃避细胞衰老,通常在21%氧气浓度下培养,而较高氧气水平对这些细胞的影响研究较少。在此,我们通过在环境大气(21%氧气)和较低的10%氧气条件下培养永生化人支气管上皮(BEAS-2B)细胞来解决这个问题。我们的结果显示,在21%氧气浓度下炎症反应增强,而在10%氧气浓度下则没有。我们发现,在21%氧气浓度下培养的细胞中,NF-κB1/RelA靶基因启动子处的RelA结合增加,同时几种促炎细胞因子上调。敲低RelA可防止在21%氧气浓度下促炎细胞因子的上调,这表明NF-κB1/RelA是在21%氧气浓度下培养的细胞中炎症反应的主要介质。有趣的是,与在21%氧气浓度下培养的细胞不同,将在10%氧气浓度下培养的细胞暴露于过氧化氢不会引发炎症反应,这表明在较低氧气水平下培养的细胞耐受氧化应激的能力增强。

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