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5. Asthma and air pollution: recent insights in pathogenesis and clinical implications

Author

Tania Maes, Guy Joos, and Annelies Bontinck

Subjects
Pulmonary and Respiratory Medicine, Pollution, medicine.medical_specialty, Exacerbation, media_common.quotation_subject, Air pollution, medicine.disease_cause, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, immune system diseases, Air Pollution, Epidemiology, medicine, Humans, 030212 general & internal medicine, Intensive care medicine, Adverse effect, Asthma, media_common, business.industry, Environmental Exposure, medicine.disease, respiratory tract diseases, 030228 respiratory system, Public Health, business
Abstract

Air pollution has adverse effects on the onset and morbidity of respiratory diseases, including asthma. In this review, we discuss recent insights into the effects of air pollution on the incidence and exacerbation of asthma. We focus on epidemiological studies that describe the association between air pollution exposure and development, mortality, persistence and exacerbations of asthma among different age groups. Moreover, we also provide an update on translational studies describing the mechanisms behind this association.Mechanisms linking air pollutants such as particulate matter, nitrogen dioxide (NO2) and ozone to the development and exacerbation of asthma include the induction of both eosinophilic and neutrophilic inflammation driven by stimulation of airway epithelium and increase of pro-inflammatory cytokine production, oxidative stress and DNA methylation changes. Although exposure during foetal development is often reported as a crucial timeframe, exposure to air pollution is detrimental in people of all ages, thus influencing asthma onset as well as increase in asthma prevalence, mortality, persistence and exacerbation.In conclusion, this review highlights the importance of reducing air pollution levels to avert the progressive increase in asthma incidence and morbidity.

Published
2019

6. Innate lymphoid cells in isocyanate-induced asthma: role of microRNA-155

Author

Annelies Bontinck, Jeroen Vanoirbeek, Mirjam P. Roffel, Marina Saetta, Guy Brusselle, Evy E. Blomme, Manuel G. Cosio, Louise Vandenbroucke, Sharen Provoost, Lore Pollaris, Fien M. Verhamme, Erica Bazzan, Matteo Bonato, Hannelore Van Eeckhoutte, Guy Joos, and Tania Maes

Subjects
0301 basic medicine, Pulmonary and Respiratory Medicine, EXPRESSION, AIRWAY INFLAMMATION, BRONCHIAL-MUCOSA, Inflammation, Proinflammatory cytokine, 03 medical and health sciences, Mice, 0302 clinical medicine, TOLUENE DIISOCYANATE TDI, medicine, Medicine and Health Sciences, Eosinophilia, Animals, Humans, EXPOSURE, Lymphocytes, OCCUPATIONAL ASTHMA, Asthma, Lung, medicine.diagnostic_test, business.industry, Innate lymphoid cell, IMMUNOLOGICAL DETERMINANTS, MURINE MODEL, MOUSE MODEL, respiratory system, medicine.disease, Immunity, Innate, respiratory tract diseases, Mice, Inbred C57BL, Disease Models, Animal, MicroRNAs, 030104 developmental biology, Bronchoalveolar lavage, medicine.anatomical_structure, 030228 respiratory system, Immunology, medicine.symptom, Toluene 2,4-Diisocyanate, business, GLYCATION END-PRODUCTS, Occupational asthma, Bronchoalveolar Lavage Fluid
Abstract

BackgroundOccupational asthma, induced by workplace exposures to low molecular weight agents such as toluene 2,4-diisocyanate (TDI), causes a significant burden to patients and society. Little is known about innate lymphoid cells (ILCs) in TDI-induced asthma. A critical regulator of ILC function is microRNA-155, a microRNA associated with asthma.ObjectiveTo determine whether TDI exposure modifies the number of ILCs in the lung and whether microRNA-155 contributes to TDI-induced airway inflammation and hyperresponsiveness.MethodsC57BL/6 wild-type and microRNA-155 knockout mice were sensitised and challenged with TDI or vehicle. Intracellular cytokine expression in ILCs and T-cells was evaluated in bronchoalveolar lavage (BAL) fluid using flow cytometry. Peribronchial eosinophilia and goblet cells were evaluated on lung tissue, and airway hyperresponsiveness was measured using the forced oscillation technique. Putative type 2 ILCs (ILC2) were identified in bronchial biopsies of subjects with TDI-induced occupational asthma using immunohistochemistry. Human bronchial epithelial cells were exposed to TDI or vehicle.ResultsTDI-exposed mice had higher numbers of airway goblet cells, BAL eosinophils, CD4+T-cells and ILCs, with a predominant type 2 response, and tended to have airway hyperresponsiveness. In TDI-exposed microRNA-155 knockout mice, inflammation and airway hyperresponsiveness were attenuated. TDI exposure induced IL-33 expression in human bronchial epithelial cells and in murine lungs, which was microRNA-155 dependent in mice. GATA3+CD3−cells, presumably ILC2, were present in bronchial biopsies.ConclusionTDI exposure is associated with increased numbers of ILCs. The proinflammatory microRNA-155 is crucial in a murine model of TDI asthma, suggesting its involvement in the pathogenesis of occupational asthma due to low molecular weight agents.

Published
2019

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