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Effects of Real-Ambient PM2.5 Exposure on Lung Damage Modulated by Nrf2−/−

Hao Ding, Menghui Jiang, Daochuan Li, Yanjie Zhao, Dianke Yu, Rong Zhang, Wen Chen, Jingbo Pi, Rui Chen, Lianhua Cui, Yuxin Zheng, Jin‐Mei Piao

2021Frontiers in Pharmacology41 citationsDOIOpen Access PDF

Abstract

Previous studies have shown that long-term exposure to fine particulate matter (PM 2.5 ) increases the morbidity and mortality of pulmonary diseases such as asthma, chronic obstructive pulmonary disease and pulmonary emphysema. Oxidative stress and inflammation play key roles in pulmonary damage caused by PM 2.5 . Nuclear factor erythroid 2-related factor 2 (Nrf2) could regulate the expression of antioxidant and anti-inflammatory genes and is pivotal for protection against PM 2.5 -induced oxidative stress. In this study, a real-ambient exposure system was constructed with the outdoor ambient air in north China. Wild-type (WT) and Nrf2 −/− (KO) mice were exposed to the real-ambient system for six weeks. After PM 2.5 exposure, our data showed that the levels of inflammatory factors and malondialdehyde were significantly increased in WT and KO mice. Moreover, the lung function and pathological phenotype of the WT mice were altered but there was no obvious change in the Nrf2 −/− mice. To further explore the potential molecular mechanisms, we performed RNA-sequencing. The RNA-sequence analysis results showed that the CYP450 pathway in the first ten pathways of KEGG was related to the metabolism of PM 2.5 . In WT and KO mice, the expression of CYP2E1 in the CYP450 pathway showed opposite trends after PM 2.5 exposure. The data showed that the expression of the CYP2E1 gene in WT-PM mice increased while it decreased in KO-PM; the expression of the CYP2E1 protein showed a similar trend. CYP2E1 is primarily distributed in the endoplasmic reticulum (ER) where it could metabolize various exogenous substances attached to PM 2.5 and produce highly toxic oxidation products closely related to ER stress. Consistently, the expression level of GRP94, a biomarker of ER stress, was increased in WT mice and reduced in KO mice under PM 2.5 exposure. Persistent ER stress is a mechanism that causes lung damage under PM 2.5 exposure. Nrf2 facilitates lung injury during PM 2.5 exposure and CYP2E1 metabolism is involved in this process.

Topics & Concepts

Oxidative stressMalondialdehydeCYP2E1LungInflammationImmunologyChemistryMedicineInternal medicinePharmacologyMetabolismCytochrome P450Air Quality and Health ImpactsGenomics, phytochemicals, and oxidative stressClimate Change and Health Impacts
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