Abstract

Air pollution is a significant concern for human health, particularly in relation to cardiovascular damage. Currently, the precise mechanisms underlying myocardial tissue injury induced by air pollution remain to be fully elucidated. Oil mist particulate matter (OMPM) is a key environmental factor that has been linked to increased mortality from cardiovascular diseases. The research aims to explore the detrimental effects and underlying molecular mechanisms of OMPM exposure on myocardial tissue. In this study, we established exposure models with different concentrations of OMPM both in vivo and in vitro to assess their deleterious effects on myocardial tissue. The results indicated that OMPM exposure induced alterations in myocardial enzymes and large accumulation of lipid droplets in rat myocardial tissue, with a dose-dependent increase in cell apoptosis, oxidative stress, and inflammatory responses, accompanied by mitochondrial structural damage and dysfunction. Proteomic analysis suggested that OMPM induced myocardial tissue damage is closely associated with changes in mitochondrial biological functions and fatty acid metabolism, possibly through inhibition of the PPAR signaling pathway. Further experiments using a PPARα agonist (WY-14643) and PPARα siRNA transfection cell model demonstrated that WY-14643 could mitigate abnormal fatty acid metabolism, mitochondrial dysfunction, and cell apoptosis caused by OMPM exposure. Overall, the study suggests that OMPM exposure disrupts myocardial fatty acid metabolism, contributes to mitochondrial damage and dysfunction through targeted inhibition of the PPAR signaling pathway, and ultimately results in cardiomyocyte apoptosis and myocardial tissue injury.

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