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Exposure to different fractions of diesel exhaust PM2.5 induces different levels of pulmonary inflammation and acute phase response

Shimin Tao, Yanyi Xu, Minjie Chen, Haichang Zhang, Xingke Huang, Zhouzhou Li, Bin Pan, Renzhen Peng, Yaning Zhu, Haidong Kan, Weihua Li, Zhekang Ying

2021Ecotoxicology and Environmental Safety28 citationsDOIOpen Access PDF

Abstract

Ambient fine particulate matter (PM2.5) consists of various components, and their respective contributions to the toxicity of PM2.5 remains to be determined. To provide specific recommendations for preventing adverse effects due to PM2.5 pollution, we determined whether the induction of pulmonary inflammation, the putative pathogenesis for the morbidity and mortality due to PM2.5 exposure, was fractioned through solubility-dependent fractioning. In the present study, the water and heptane solubilities-dependent serial fractioning of diesel exhaust particulate matter (DEP), a prominent source of urban PM2.5 pollution, was performed. The pro-inflammatory actions of these resultant fractions were then determined using both an intratracheal instillation mouse model and cultured BEAS-2B cells, a human bronchial epithelial cell line. Instillation of the water-insoluble, but not -soluble fraction elicited significant pulmonary inflammatory and acute phase responses, comparable to those induced by instillation of DEP. The water-insoluble fraction was further fractioned using heptane, a polar organic solvent, and instillation of heptane-insoluble, but not -soluble fraction elicited significant pulmonary inflammation and acute phase responses. Furthermore, we showed that DEP and water-insoluble DEP, but not water-soluble DEP, activated pro-inflammatory signaling in cultured BEAS-2B cells, ruling out the possibility that the solubility impacts the in vivo distribution and thus the pulmonary inflammatory response.

Topics & Concepts

InflammationInhalationDiesel exhaustChemistryParticulatesLungIntratracheal instillationSolventPharmacologySolubilityIn vivoHeptaneAcute toxicityEnvironmental chemistryToxicityImmunologyDiesel fuelBiochemistryMedicineBiologyAnesthesiaOrganic chemistryBronchoalveolar lavageInternal medicineBiotechnologyAir Quality and Health ImpactsEnergy and Environment ImpactsAir Quality Monitoring and Forecasting