Perfluorinated compounds exposure and atherogenic risk characteristics in a high-fat diet condition: In vitro/in vivo models and population panel study.
Ziyuan Li, Ze Zhang, Biao Zhang, Chengying Zhou, Hongyan Yu, Liting Xu, Zhicong He, Pu Chen, Wei Peng, Mingliang Ye, Guangbo Qu, Xiaomin Zhang, Yang Song, Xiaoting Jin, Yuxin Zheng
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Abstract
Perfluorinated compounds (PFCs) are a well-recognized environmental risk factor for atherosclerosis. However, corresponding atherogenic risk in susceptible populations consuming high-fat diets (HFDs) remains unclear. Here, we found that perfluorooctane sulfonic acid (PFOS), a canonical PFCs, elevated the atherogenic risk in mice fed with HFD, which was characterized by an increased number of pro-inflammatory phenotype macrophages. We also found that macrophages exhibited a metabolic reprogramming to glycolysis, which was attributed to increased intracellular Fe2+ level. Mechanistic investigation revealed that PFOS directly bound to the iron-storage site on the ferritin heavy chain, subsequently weakening the iron-storage function. Notably, PFCs with acidic substituents and short chains had a higher atherogenic risk, as evidenced in the crucial indicators and observed in a population with a high triglyceride level. These findings highlight the potential atherogenic risk posed by PFCs exposure in susceptible populations consuming HFD and provide a potential intervention target.
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