环境细颗粒物通过血红素降解诱导的铁过载引发铁死亡,从而导致心脏纤维化。
Ambient fine particulate matter induces cardiac fibrosis through triggering ferroptosis by heme degradation induced-iron overload.
作者信息
Jiang Jinjin, Li Yang, Chen Yuping, Wu Qin, Ding Shibin
机构信息
School of Public Health and Management, Jiangsu Medical College, Yancheng, Jiangsu Province 224005, PR China; Jiangsu Engineering Research Centers for Cardiovascular and Cerebrovascular Disease and Cancer Prevention and Control, Yancheng, Jiangsu Province 224005, PR China.
Jiangsu Engineering Research Centers for Cardiovascular and Cerebrovascular Disease and Cancer Prevention and Control, Yancheng, Jiangsu Province 224005, PR China; Department of Technology, Jiangsu Medical College, Yancheng, Jiangsu Province 224005, PR China.
出版信息
Ecotoxicol Environ Saf. 2025 Jun 1;297:118227. doi: 10.1016/j.ecoenv.2025.118227. Epub 2025 Apr 24.
BACKGROUND
Previous studies have shown a significant correlation between exposure to ambient fine particulate matter (PM) and cardiac fibrosis, yet the precise detrimental effects and underlying mechanisms of PM exposure on cardiac fibrosis remain incompletely understood. Cardiac remodeling, a process involving ferroptosis that can be initiated by iron overload, has been implicated in this phenomenon. In this study, we sought to explore the potential mechanism by which ferroptosis contributes to PM-induced cardiac fibrosis.
METHODS AND RESULTS
Male C57BL/6 J mice were exposed to ambient PM by intratracheal instillation twice a week for 12 weeks to establish PM-exposed murine models and cardiomyocytes were used to verify the role of ferroptosis in PM-induced cardiac fibrosis. In this study, it was observed that exposure to PM resulted in cardiac fibrosis and a significant upregulation of cardiac fibrosis-related markers (TGF-β1, collagen-I and p-Smad3), heme oxygenase 1 (HO-1), and ACSL4 (a biomarker for ferroptosis). Additionally, PM exposure led to a decrease in heme content, iron overload, increased levels of the lipid peroxidation marker 4-HNE, and a reduction in the ratio of GSH/GSSG and GPX4 (a biomarker for ferroptosis) in murine hearts. Significantly, the use of ferrostatin-1 (an inhibitor of ferroptosis) mitigated PM-induced cardiac fibrosis and decreased the levels of cardiac fibrosis-related markers (TGF-β1, collagen-I and p-Smad3) in murine hearts, indicating the essential role of ferroptosis in the development of cardiac fibrosis. In vitro experiments showed that PM upregulated the expression of HO-1 protein, promoted iron accumulation, increased 4-HNE levels, and triggered ferroptosis in cardiomyocytes. The inhibition of HO-1 (zinc protoporphyrin 9) and siRNA HO-1 effectively mitigated PM-induced iron overload, ferroptosis, and heme accumulation in cardiomyocytes. Additionally, treatment with ferrostatin-1 markedly decreased the expression levels of cardiac fibrosis-related markers, such as TGF-β1 and p-Smad3.
CONCLUSION
Collectively, our study showed that the activation of ferroptosis/TGF-β1/Smad3 signaling pathway, initiated by heme degradation-induced iron overload in cardiomyocytes, serves as a mechanism in murine models of PM-induced cardiac fibrosis.
背景
先前的研究表明,暴露于环境细颗粒物(PM)与心脏纤维化之间存在显著相关性,但PM暴露对心脏纤维化的确切有害影响及潜在机制仍未完全明确。心脏重塑是一个涉及铁死亡的过程,可由铁过载引发,这一现象与此有关。在本研究中,我们试图探索铁死亡促成PM诱导的心脏纤维化的潜在机制。
方法与结果
将雄性C57BL/6 J小鼠每周经气管内滴注两次环境PM,持续12周,以建立PM暴露小鼠模型,并使用心肌细胞验证铁死亡在PM诱导的心脏纤维化中的作用。在本研究中,观察到暴露于PM导致心脏纤维化以及心脏纤维化相关标志物(转化生长因子-β1、I型胶原和磷酸化Smad3)、血红素加氧酶1(HO-1)和ACSL4(铁死亡的生物标志物)显著上调。此外,PM暴露导致小鼠心脏血红素含量降低、铁过载、脂质过氧化标志物4-羟基壬烯醛水平升高以及谷胱甘肽/氧化型谷胱甘肽比值和GPX4(铁死亡的生物标志物)降低。值得注意的是,使用铁死亡抑制剂铁抑素-1可减轻PM诱导的心脏纤维化,并降低小鼠心脏中与心脏纤维化相关标志物(转化生长因子-β1、I型胶原和磷酸化Smad3)的水平,表明铁死亡在心脏纤维化发展中起重要作用。体外实验表明,PM上调HO-1蛋白表达,促进铁积累,增加4-羟基壬烯醛水平,并在心肌细胞中引发铁死亡。抑制HO-1(锌原卟啉9)和HO-1的小干扰RNA有效减轻了PM诱导的心肌细胞铁过载、铁死亡和血红素积累。此外,用铁抑素-1处理显著降低了心脏纤维化相关标志物如转化生长因子-β1和磷酸化Smad3的表达水平。
结论
总体而言,我们的研究表明,心肌细胞中血红素降解诱导的铁过载引发的铁死亡/转化生长因子-β1/Smad3信号通路激活,是PM诱导的小鼠心脏纤维化模型中的一种机制。
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