Postnatal Ozone Exposure Disrupts Alveolar Development, Exaggerates Mucoinflammatory Responses, and Suppresses Bacterial Clearance in Developing Scnn1b -Tg+ Mice Lungs

Abstract Increased levels of ambient ozone, one of the six criteria air pollutants, result in respiratory tract injury and worsening of ongoing lung diseases. However, the effect of ozone exposure on the respiratory tract undergoing active lung development and simultaneously experiencing mucoinflamm...

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Published inThe Journal of immunology (1950) Vol. 207; no. 4; pp. 1165 - 1179
Main Authors Choudhary, Ishita, Vo, Thao, Paudel, Kshitiz, Yadav, Radha, Mao, Yun, Patial, Sonika, Saini, Yogesh
Format Journal Article
LanguageEnglish
Published 15.08.2021
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Abstract Abstract Increased levels of ambient ozone, one of the six criteria air pollutants, result in respiratory tract injury and worsening of ongoing lung diseases. However, the effect of ozone exposure on the respiratory tract undergoing active lung development and simultaneously experiencing mucoinflammatory lung diseases, such as cystic fibrosis, remains unclear. To address these questions, we exposed Scnn1b transgenic (Scnn1b-Tg+) mice, a mouse model of cystic fibrosis–like lung disease, and littermate wild-type (WT) mice to ozone from postnatal days (PND) 3–20 and examined the lung phenotypes at PND21. As compared with filtered air (FA)–exposed WT mice, the ozone-exposed WT mice exhibited marked alveolar space enlargement, in addition to significant eosinophilic infiltration, type 2 inflammation, and mucous cell metaplasia. Ozone-exposed Scnn1b-Tg+ mice also exhibited significantly increased alveolar space enlargement, which was also accompanied by exaggerated granulocytic infiltration, type 2 inflammation, and a greater degree of mucus obstruction. The alveolar space enlargement in ozone-exposed WT, FA-exposed Scnn1b-Tg+, and ozone-exposed Scnn1b-Tg+ mice was accompanied by elevated levels of MMP12 protein in macrophages and Mmp12 mRNA in the lung homogenates. Finally, although bacterial burden was largely resolved by PND21 in FA-exposed Scnn1b-Tg+ mice, ozone-exposed Scnn1b-Tg+ mice exhibited compromised bacterial clearance, which was also associated with increased levels of IL-10, an immunosuppressive cytokine, and marked mucus obstruction. Taken together, our data show that ozone exposure results in alveolar space remodeling during active phases of lung development and markedly exaggerates the mucoinflammatory outcomes of pediatric-onset lung disease, including bacterial infections, granulocytic inflammation, mucus obstruction, and alveolar space enlargement.
AbstractList Increased levels of ambient ozone, one of the six criteria air pollutants, result in respiratory tract injury and worsening of ongoing lung diseases. However, the effect of ozone exposure on the respiratory tract undergoing active lung development and simultaneously experiencing mucoinflammatory lung diseases such as cystic fibrosis (CF) remains unclear. To address these questions, we exposed Scnn1b transgenic ( Scnn1b -Tg+), a mouse model of CF-like lung disease, and littermate WT mice to ozone from postnatal day (PND) 3-20 and examined the lung phenotypes at PND21. As compared to filtered air (FA)-exposed WT mice, the ozone-exposed WT mice exhibited marked alveolar space enlargement, in addition to significant eosinophilic infiltration, Type 2 inflammation, and mucous cell metaplasia. Ozone-exposed Scnn1b -Tg+ mice also exhibited significantly increased alveolar space enlargement which was also accompanied by exaggerated granulocytic infiltration, type 2 inflammation, and a greater degree of mucoobstruction. The alveolar space enlargement in ozone-exposed WT, FA-exposed Scnn1b -Tg+, and ozone-exposed Scnn1b -Tg+ mice was accompanied by elevated levels of MMP12 protein in macrophages and Mmp12 mRNA in the lung homogenates. Finally, while bacterial burden was largely resolved by PND21 in FA-exposed Scnn1b -Tg+ mice, ozone-exposed Scnn1b -Tg+ mice exhibited compromised bacterial clearance which was also associated with increased levels of IL-10, an immunosuppressive cytokine, and marked mucoobstruction. Taken together, our data show that ozone exposure results in alveolar space remodeling during active phases of lung development and markedly exaggerates the mucoinflammatory outcomes of pediatric-onset lung disease including bacterial infections, granulocytic inflammation, mucus obstruction, and alveolar space enlargement.
Abstract Increased levels of ambient ozone, one of the six criteria air pollutants, result in respiratory tract injury and worsening of ongoing lung diseases. However, the effect of ozone exposure on the respiratory tract undergoing active lung development and simultaneously experiencing mucoinflammatory lung diseases, such as cystic fibrosis, remains unclear. To address these questions, we exposed Scnn1b transgenic (Scnn1b-Tg+) mice, a mouse model of cystic fibrosis–like lung disease, and littermate wild-type (WT) mice to ozone from postnatal days (PND) 3–20 and examined the lung phenotypes at PND21. As compared with filtered air (FA)–exposed WT mice, the ozone-exposed WT mice exhibited marked alveolar space enlargement, in addition to significant eosinophilic infiltration, type 2 inflammation, and mucous cell metaplasia. Ozone-exposed Scnn1b-Tg+ mice also exhibited significantly increased alveolar space enlargement, which was also accompanied by exaggerated granulocytic infiltration, type 2 inflammation, and a greater degree of mucus obstruction. The alveolar space enlargement in ozone-exposed WT, FA-exposed Scnn1b-Tg+, and ozone-exposed Scnn1b-Tg+ mice was accompanied by elevated levels of MMP12 protein in macrophages and Mmp12 mRNA in the lung homogenates. Finally, although bacterial burden was largely resolved by PND21 in FA-exposed Scnn1b-Tg+ mice, ozone-exposed Scnn1b-Tg+ mice exhibited compromised bacterial clearance, which was also associated with increased levels of IL-10, an immunosuppressive cytokine, and marked mucus obstruction. Taken together, our data show that ozone exposure results in alveolar space remodeling during active phases of lung development and markedly exaggerates the mucoinflammatory outcomes of pediatric-onset lung disease, including bacterial infections, granulocytic inflammation, mucus obstruction, and alveolar space enlargement.
Author Patial, Sonika
Vo, Thao
Yadav, Radha
Paudel, Kshitiz
Saini, Yogesh
Choudhary, Ishita
Mao, Yun
AuthorAffiliation Department of Comparative Biomedical Sciences, School of Veterinary Medicine, Louisiana State University, Baton Rouge, LA 70803, USA
AuthorAffiliation_xml – name: Department of Comparative Biomedical Sciences, School of Veterinary Medicine, Louisiana State University, Baton Rouge, LA 70803, USA
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Author Contributions
Y. S. and S. P. conceived and designed the research; I.C., T. V., and Y. S. maintained the animal colony, conducted animal necropsies, and performed BALF cellularity assays; I. C., T. V, K. P., R. Y., Y. M., S. P., and Y. S. performed cytokine, gene expression assays, microbiological, and histopathological experiments; S. P. performed histopathological analyses; I. C., S. P., and Y. S. wrote and reviewed the manuscript for intellectual contents.
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Snippet Abstract Increased levels of ambient ozone, one of the six criteria air pollutants, result in respiratory tract injury and worsening of ongoing lung diseases....
Increased levels of ambient ozone, one of the six criteria air pollutants, result in respiratory tract injury and worsening of ongoing lung diseases. However,...
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Title Postnatal Ozone Exposure Disrupts Alveolar Development, Exaggerates Mucoinflammatory Responses, and Suppresses Bacterial Clearance in Developing Scnn1b -Tg+ Mice Lungs
URI https://search.proquest.com/docview/2557233479
https://pubmed.ncbi.nlm.nih.gov/PMC8654340
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