Metformin alleviates benzo[a]pyrene-induced alveolar injury by inhibiting necroptosis and protecting AT2 cells

坏死性下垂 二甲双胍 炎症 纤维化 药理学 癌症研究 肌成纤维细胞 医学 生物 免疫学 程序性细胞死亡 病理 内分泌学 细胞凋亡 糖尿病 生物化学
作者
Meiyu Quan,Xihua Yan,Wanqi Miao,Xue Li,Jiaqi Li,Linglong Yang,Chenhua Yu,Yanxia Zhang,Weiwei Yang,Chengyang Zou,Bin Liu,Xuru Jin,Chengshui Chen,Qiang Guo,Jin‐San Zhang
出处
期刊:Ecotoxicology and Environmental Safety [Elsevier BV]
卷期号:272: 116094-116094 被引量:8
标识
DOI:10.1016/j.ecoenv.2024.116094
摘要

Exposure to benzo[a]pyrene (B[a]P) has been linked to lung injury and carcinogenesis. Airway epithelial cells express the B[a]P receptor AHR, so B[a]P is considered to mainly target airway epithelial cells, whereas its potential impact on alveolar cells remains inadequately explored. Metformin, a first-line drug for diabetes, has been shown to exert anti-inflammatory and tissue repair-promoting effects under various injurious conditions. Here, we explored the effect of chronic B[a]P exposure on alveolar cells and the impact of metformin on B[a]P-induced lung injury by examining the various parameters including lung histopathology, inflammation, fibrosis, and related signal pathway activation. MLKL knockout (Mlkl-/-) and AT2-lineage tracing mice (SftpcCre-ERT2;LSL-tdTomatoflox+/-) were used to delineate the role of necroptosis in B[a]P-induced alveolar epithelial injury and repair. Mice receiving weekly administration of B[a]P for 6 weeks developed a significant alveolar damaging phenotype associated with pulmonary inflammation, fibrosis, and activation of the necroptotic cell death pathway. These effects were significantly relieved in MLKL null mice. Furthermore, metformin treatment, which were found to promote AMPK phosphorylation and inhibit RIPK3, as well as MLKL phosphorylation, also significantly alleviated B[a]P-induced necroptosis and lung injury phenotype. However, the protective efficacy of metformin was rendered much less effective in Mlkl null mice or by blocking the necroptotic pathway with RIPK3 inhibitor. Our findings unravel a potential protective efficacy of metformin in mitigating the detrimental effects of B[a]P exposure on lung health by inhibiting necroptosis and protecting AT2 cells.
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