Abstract
Chronic exposure to ambient levels of air pollution induces respiratory illness exacerbation by increasing inflammatory responses and apoptotic cells in pulmonary tissues. The ineffective phagocytosis of these apoptotic cells (efferocytosis) by macrophages has been considered an important factor in these pathological mechanisms. Depending on microenvironmental stimuli, macrophages can assume different phenotypes with different functional actions. M1 macrophages are recognized by their proinflammatory activity, whereas M2 macrophages play pivotal roles in responding to microorganisms and in efferocytosis to avoid the progression of inflammatory conditions. To verify how exposure to air pollutants interferes with macrophage polarization in emphysema development, we evaluated the different macrophage phenotypes in a PPE- induced model with the exposure to diesel exhaust particles. C57BL/6 mice received intranasal instillation of porcine pancreatic elastase (PPE) to induce emphysema, and the control groups received saline. Both groups were exposed to diesel exhaust particles or filtered air for 60 days according to the groups. We observed that both the diesel and PPE groups had an increase in alveolar enlargement, collagen and elastic fibers in the parenchyma and the number of macrophages, lymphocytes and epithelial cells in BAL, and these responses were exacerbated in animals that received PPE instillation prior to exposure to diesel exhaust particles. The same response pattern was found inCaspase-3 positive cell analysis, attesting to an increase in cell apoptosis, which is in agreement with the increase in M2 phenotype markers, measured by RT-PCR and flow cytometry analysis. We did not verify differences among the groups for the M1 phenotype. In conclusion, our results showed that both chronic exposure to diesel exhaust particles and PPE instillation induced inflammatory conditions, cell apoptosis and emphysema development, as well as an increase in M2 phenotype macrophages, and the combination of these two factors exacerbated these responses. The predominance of the M2-like phenotype likely occurred due to the increased demand for efferocytosis. However, M2 macrophage activity was ineffective, resulting in emphysema development and worsening of symptoms.
Highlights
There is a strong association between exposure to air pollutants and an increase in hospital admissions for respiratory and cardiac diseases [1]
We observed that animals that were administered porcine pancreatic elastase (PPE) (PPE + filtered air (FA) and PPE + Diesel groups) presented a significant decrease in Htis values and in Gtis when compared to those animals that did not receive PPE (SAL + FA and SAL + Diesel groups)
When we analyzed Bronchoalveolar lavage (BAL), we observed that animals that were administered PPE or exposed to diesel exhaust particles presented an increase in the total number of inflammatory cells compared to those animals that received saline and were exposed to filtered air (SAL + FA group)
Summary
There is a strong association between exposure to air pollutants and an increase in hospital admissions for respiratory and cardiac diseases [1]. These deleterious effects, especially in the respiratory tract, are mainly attributed to particulate matter (PM) air pollutants less than 10 μm (PM10) or 2.5 μm (PM2.5) in aerodynamic diameter [1]. While the mechanisms underlying the adverse effects of PM on the respiratory and cardiac systems are not completely understood, the leading hypotheses emphasize inflammatory responses in the lung and the release of cytokines with local and systemic consequences [2,3,4]. COPD is characterized by a persistent inflammatory response in the lungs to exogenous agents, and patients with this condition are more susceptible to the adverse effects of PM [6]
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