Involvement of M2 macrophages polarization in PM2.5-induced COPD by upregulating MMP12 via IL4/STAT6 pathway

白细胞介素4 STAT6 慢性阻塞性肺病 下调和上调 巨噬细胞极化 磷酸化 细胞外基质 免疫学 细胞生物学 化学 癌症研究 生物 巨噬细胞 医学 内科学 基因 细胞因子 生物化学 体外
作者
Xiaolan Guo,Siqi Yang,Huijuan Zhu,FengDong Liu,Kai Li,Guojun Li,Yuyin Lin,Hongjiao Yu,Wenxi Qiu,Hao Xu,Qiao Liu,Xinran Xie,Yaowei Sun,Peiji Zheng,Bingjie Chen,Zihan Liu,Xiaopeng Yuan,Shuyi Peng,Xinhui Bi,Jingwen Yang,Ning‐Yi Shao,Jianwei Dai
出处
期刊:Ecotoxicology and Environmental Safety [Elsevier BV]
卷期号:283: 116793-116793
标识
DOI:10.1016/j.ecoenv.2024.116793
摘要

Biomass-related airborne fine particulate matter (PM2.5) is an important risk factor for chronic obstructive pulmonary disease (COPD). Macrophage polarization has been reported to be involved in PM2.5-induced COPD, but the dynamic characteristics and underlying mechanism of this process remain unclear. Our study established a PM2.5-induced COPD mouse model and revealed that M2 macrophages predominantly presented after 4 and 6 months of PM2.5 exposure, during which a notable increase in MMP12 was observed. Single cell analysis of lung tissues from COPD patients and mice further revealed that M2 macrophages were the dominant macrophage subpopulation in COPD, with MMP12 being involved as a hub gene. In vitro experiments further demonstrated that PM2.5 induced M2 polarization and increased MMP12 expression. Moreover, we found that PM2.5 increased IL-4 expression, STAT6 phosphorylation and nuclear translocation. Nuclear pSTAT6 then bound to the MMP12 promoter region. Furthermore, the inhibition of STAT6 phosphorylation effectively abrogated the PM2.5-induced increase in MMP12. Using a coculture system, we observed a significantly reduced level of E-cadherin in alveolar epithelial cells cocultured with PM2.5-exposed macrophages, while the decrease in E-cadherin was reversed by the addition of an MMP12 inhibitor to the co-culture system. Taken together, these findings indicated that PM2.5 induced M2 macrophage polarization and MMP12 upregulation via the IL-4/STAT6 pathway, which resulted in alveolar epithelial barrier dysfunction and excessive extracellular matrix (ECM) degradation, and ultimately led to COPD progression. These findings may help to elucidate the role of macrophages in COPD, and suggest promising directions for potential therapeutic strategies.

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