Abstract

Abstract Diesel exhaust particles (DEP) emitted from motor vehicle or heavy-duty industries is thought to be the major source of air pollutants that lead to the rapid increase and worsening of allergic disease, such as asthma. In asthma, exposure to DEP has been linked to aberrant epithelial barrier integrity, which leads to the promotion of allergen delivery into the subepithelia and induced alarmins (IL-33, IL-25 and thymic stromal lymphopoietin (TSLP)) release to promote Th2-mediated inflammation. However, it is still not known the detail mechanism of airway epithelial barrier in response to DEP. In this study, we fund that PP4 expression was decreased in DEP-challenged human bronchial epithelial cells and air-pollution animal model. Moreover, silencing PP4 decreased E-cadherin and barrier integrity through and activated Src kinase and increased expression of Slug. Sequentially, transactivating the EGFR phosphorylation led to increased alarmin synthesis. Overexpression of PP4 wild type, but not phosphatase mutant, prevented DEP-induced loss of airway epithelial E-cadherin expression and decreased alarmin release, suggested that phosphatase activity is critical to maintain epithelial integrity and alarmin production. Primary human bronchial epithelial cells (HBECs) from mild and severe asthmatic patients showed a significantly low TJ integrity in ALI cultures in response to DEP, compared with HBECs from healthy subjects. Our data demonstrate that exposure to DEP causes a significant reduction in expression of PP4 leading to decreased epithelial barrier function might accelerate the allergen-induced airway inflammatory response in asthma. Supported by grants from (MOST 110-2320-B-038-065-MY3) from the Ministry of Science and Technology of Taiwan.

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