Gene expression profiling of human alveolar epithelial cells (A549 cells) exposed to atmospheric particulate matter 2.5 (PM2.5) collected from Seoul, Korea

Chan-Young Shin; Jae-Chun Ryu; Mi-Kyung Song; Seung-Chan Jeong; Yoon Cho

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Gene expression profiling of human alveolar epithelial cells (A549 cells) exposed to atmospheric particulate matter 2.5 (PM2.5) collected from Seoul, Korea

机译：从韩国首尔收集的暴露于大气颗粒物2.5（PM2.5）的人肺泡上皮细胞（A549细胞）的基因表达谱

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Many epidemiological and in vitro studies have shown that particulate matter 2.5 (PM_2.5) is associated with adverse health effects in humans, especially respiratory morbidity and mortality1–3. While the mechanisms for these effects have been vigorously investigated for many years, they still remain uncertain. In previous studies, we collected PM_2.5 samples in Seoul, Korea, where pollution results from a high level of automobile traffic, and analyzed the chemical composition of PM_2.5. In the present study, we used gene expression profiling and gene ontology (GO) analysis to identify the gene expression changes in A549 human alveolar epithelial cells induced by exposure to water and organic extracts of PM_2.5 (W-PM_2.5 and O-PM_2.5) in order to evaluate the adverse health effects of PM_2.5. Transcriptomic profiling indicates that the O-PM_2.5 exposure group was more sensitive in gene alterations than the W-PM_2.5 exposure group. Through analysis of gene expression profiles, we identified 149 W-PM_2.5-specific genes and 516 O-PM_2.5-specific genes, as well as 173 commonly expressed genes in both the W-PM_2.5 and O-PM_2.5 exposure groups. After gene ontology (GO) analysis on the O-PM_2.5-specific genes, we determined several key pathways that are known to be related to increasing pulmonary toxicity, such as immune response, regulation of inflammatory response, metabolism of xenobiotics by cytochrome P450, and retinol metabolism. However, we did not find the pulmonary toxicity-related pathways through GO analysis on the W-PM_2.5-specific genes. In addition, 173 commonly expressed genes are involved in tyrosine catabolic process, retinol metabolism pathway, and steroid hormone biosynthesis — all of which are known to induce adverse health effects. In conclusion, this report describes changes in gene expression profiles in an in vitro respiratory system in response to exposure to PM_2.5 water and organic extracts and relates these gene expression changes to pulmonary toxicity related pathways. This experiment adds to the understanding of how cells respond to PM_2.5 exposure through transcriptional regulation.

机译：许多流行病学和体外研究表明，颗粒物2.5（PM _{2.5 ）与人类不良健康影响相关，尤其是呼吸道发病率和死亡率< sup> 1-3 。尽管已经对这些作用的机理进行了多年的深入研究，但它们仍然不确定。在以前的研究中，我们在韩国首尔收集了PM _{2.5 样品，这些样品是由于高水平的汽车交通造成的，并分析了PM _{2.5 的化学成分。在本研究中，我们使用基因表达谱和基因本体论（GO）分析来鉴定暴露于水和PM _{2.5 （W-）的有机提取物诱导的A549人肺泡上皮细胞中的基因表达变化。 PM _{2.5 和O-PM _{2.5 ），以评估PM _{2.5 对健康的不利影响。转录组分析表明，O-PM _{2.5 暴露组比W-PM _{2.5 暴露组对基因改变更敏感。通过基因表达谱分析，我们确定了149个W-PM _{2.5 特异基因和516个O-PM _{2.5 特异基因，以及173个共同表达的基因W-PM _{2.5 和O-PM _{2.5 暴露组。通过对O-PM _{2.5 特异基因进行基因本体论（GO）分析，我们确定了与肺毒性增加相关的几种关键途径，例如免疫反应，炎症反应调节，细胞色素P450代谢异种生物，以及视黄醇代谢。然而，通过GO分析W-PM _{2.5 特异性基因，我们没有发现与肺毒性相关的途径。此外，酪氨酸分解代谢过程，视黄醇代谢途径和类固醇激素生物合成中涉及173个共同表达的基因，所有这些基因均会引起不利的健康影响。总之，本报告描述了体外呼吸系统中暴露于PM _{2.5 水和有机提取物的基因表达谱的变化，并将这些变化联系起来基因表达改变为肺毒性相关途径。该实验增加了对细胞如何通过转录调控对PM _{2.5 暴露反应的理解。}}}}}}}}}}}}}}}}} 展开▼

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《Molecular & Cellular Toxicology》 |2015年第4期|共页

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Chan-Young Shin; Jae-Chun Ryu; Mi-Kyung Song; Seung-Chan Jeong; Yoon Cho;
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机译：从韩国首尔收集的暴露于大气颗粒物2.5（PM2.5）的人肺泡上皮细胞（A549细胞）的基因表达谱

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机译：从沙特阿拉伯收集到空气中颗粒物质的人支气管上皮细胞的基因表达分析和途径分析

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机译：从沙特阿拉伯收集到空气中颗粒物质的人支气管上皮细胞的基因表达分析和途径分析

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3. 2.5 PM2.5 Biomarkers for identification of inflammatory response-related genes under exposure to particulate matterPM 2.5 using human vascular endothelial cell line and the method using the same [P] . 外国专利： KR102087122B1 . 2020-03-10

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Gene expression profiling of human alveolar epithelial cells (A549 cells) exposed to atmospheric particulate matter 2.5 (PM2.5) collected from Seoul, Korea

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