Transcriptomics changes and the candidate pathway in human macrophages induced by different PM2.5 extracts
2021
An, Jing | Tang, Waner | Wang, Lu | Xue, Wanlei | Yao, Weiwei | Zhong, Yufang | Qiu, Xinghua | Li, Yi | Chen, Yingjun | Wang, Hongli | Shang, Yu
Ambient fine particulate matter (PM₂.₅) is a worldwide environmental problem and is posing a serious threat to human health. Until now, the molecular toxicological mechanisms and the crucial toxic components of PM₂.₅ remain to be clarified. This study investigated the whole transcriptomic changes in THP-1 derived macrophages treated with different types of PM₂.₅ extracts using RNA sequencing technique. Bioinformatics analyses covering biological functions, signal pathways, protein networks and node genes were performed to explore the candidate pathways and critical genes, and to find the potential molecular mechanisms. Results of Gene Ontology (GO), Kyoto Encyclopedia of Genes and Genomes pathway (KEGG), and protein-protein interaction (PPI) networks revealed that water extracts (WEs) of PM₂.₅ obviously influenced genes and molecular pathways responded to oxidative stress and inflammation. Dichloromethane extracts (DEs) specifically affected genes and signal cascades related to cell cycle progress process. Furthermore, compared with WEs collected in heating season, non-heating season WEs induced much higher expression levels of Ca-associated genes (including phosphodiesterase 4B and cyclooxygenase-2), which may consequently result in more severe inflammatory responses. While, for DEs exposure, the heating season (DH) group showed extensive induction of deferentially expressed genes (DEGs) related to cell cycle pathway, which may be caused by the higher polycyclic aromatic hydrocarbons (PAHs) contents in DH samples than those from non-heating season. In conclusion, the oxidative stress and inflammation response are closely correlated with cellular responses in THP-1 derived macrophages induced by water soluble components of PM₂.₅, and cell cycle dysregulation may play an important role in biological effects induced by organic components. The different transcriptomic changes induced by seasonal PM₂.₅ extracts may partially depend on the contents of PAHs and metal ions, respectively.
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