PM2.5-induced inflammation and lipidome alteration associated with the development of atherosclerosis based on a targeted lipidomic analysis

•The PM2.5-increased atherosclerotic effects are persisted after ending exposure.•PM2.5 significantly increases the levels of CD30L, IFNg and decreases IL-10.•Glycerolipid/phospholipid metabolism is linked to PM2.5-aggravated atherosclerosis. Epidemiological studies have confirmed that PM2.5 could c...

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Bibliographic Details
Published in:Environment international 2020-03, Vol.136, p.105444, Article 105444
Main Authors: Zhang, Jingyi, Liang, Shuang, Ning, Ruihong, Jiang, Jinjin, Zhang, Jie, Shen, Heqing, Chen, Rui, Duan, Junchao, Sun, Zhiwei
Format: Article
Language:English
Subjects:
Atherosclerosis
Glycerolipids
Glycerophospholipids
Inflammation
Lipidomic
PM2.5
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Summary:•The PM2.5-increased atherosclerotic effects are persisted after ending exposure.•PM2.5 significantly increases the levels of CD30L, IFNg and decreases IL-10.•Glycerolipid/phospholipid metabolism is linked to PM2.5-aggravated atherosclerosis. Epidemiological studies have confirmed that PM2.5 could contribute to the development of atherosclerosis accompanied with lipids dysregulation. However, the lipids biomarkers involved in this progress remain largely unknown. In this study, a targeted lipidomic approach was used to find out the possible lipid biomarkers involved in the development of atherosclerosis after PM2.5 exposure or during a recovery period. Also, we assessed the pro-atherosclerosis effects of PM2.5 and follow-up influence using pulse wave (PW) Doppler ultrasound, oil red O staining and H&E staining. The vascular stiffness was elevated after 2-month PM2.5 exposure and might persist after 1-month recovery. While the lesions mostly concentrated in the aortic arch was significantly increased in 2-month PM2.5 exposure group and remained an increasing trend after 1-month recovery. The expressions of pro-inflammatory cytokines detected by Mouse Inflammation Array were elevated after ApoE−/− mice treated with PM2.5 for 2-month and restored following 1-month recovery. Yet, IL-10 was significantly decreased during 1-month recovery. Additionally, the targeted lipidomic analysis demonstrated that cholesterol ester (CE), phosphatidylcholine (PC), phosphatidylethanolamine (PE), sphingomyelin (SM) were significantly increased while lysophosphatidylethanolamine (LPE), lysophosphatidylcholine (LPC), diacylglycerol (DG), triacylglycerol (TG) were reduced after 2-month PM2.5 exposure, indicating that PM2.5 could disrupt glycerophospholipids, glycerolipids and sphingolipids metabolism. And a persistent impact of PM2.5 on glycerophospholipids and glycerolipids metabolism was found after 1-month recovery. Our study demonstrated that PM2.5-induced inflammation response might promote atherosclerotic lesions probably through lipid dysregulation, and the influence probably persisted after 1-month recovery.
ISSN:0160-4120
1873-6750
DOI:10.1016/j.envint.2019.105444