Literature DB >> 22677423

Neonatal oxygen increases sensitivity to influenza A virus infection in adult mice by suppressing epithelial expression of Ear1.

Michael A O'Reilly1, Min Yee, Bradley W Buczynski, Peter F Vitiello, Peter C Keng, Stephen L Welle, Jacob N Finkelstein, David A Dean, B Paige Lawrence.   

Abstract

Oxygen exposure in premature infants is a major risk factor for bronchopulmonary dysplasia and can impair the host response to respiratory viral infections later in life. Similarly, adult mice exposed to hyperoxia as neonates display alveolar simplification associated with a reduced number of alveolar epithelial type II cells and exhibit persistent inflammation, fibrosis, and mortality when infected with influenza A virus. Because type II cells participate in innate immunity and alveolar repair, their loss may contribute to oxygen-mediated sensitivity to viral infection. A genomewide screening of type II cells identified eosinophil-associated RNase 1 (Ear1). Ear1 was also detected in airway epithelium and was reduced in lungs of mice exposed to neonatal hyperoxia. Electroporation-mediated gene delivery of Ear1 to the lung before infection successfully reduced viral replication and leukocyte recruitment during infection. It also diminished the enhanced morbidity and mortality attributed to neonatal hyperoxia. These findings demonstrate that novel epithelial expression of Ear1 functions to limit influenza A virus infection, and its loss contributes to oxygen-associated epithelial injury and fibrosis after infection. People born prematurely may have defects in epithelial innate immunity that increase their risk for respiratory viral infections.
Copyright © 2012 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22677423      PMCID: PMC3409430          DOI: 10.1016/j.ajpath.2012.05.005

Source DB:  PubMed          Journal:  Am J Pathol        ISSN: 0002-9440            Impact factor:   4.307


  60 in total

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Journal:  J Virol       Date:  2005-12       Impact factor: 5.103

4.  Eosinophil activation in preterm infants with lung disease.

Authors:  E Berggren Broström; M Katz-Salamon; J Lundahl; G Halldén; B Winbladh
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7.  Type II epithelial cells are critical target for hyperoxia-mediated impairment of postnatal lung development.

Authors:  Min Yee; Peter F Vitiello; Jason M Roper; Rhonda J Staversky; Terry W Wright; Sharon A McGrath-Morrow; William M Maniscalco; Jacob N Finkelstein; Michael A O'Reilly
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2.  Alternative Progenitor Lineages Regenerate the Adult Lung Depleted of Alveolar Epithelial Type 2 Cells.

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3.  Neonatal hyperoxia leads to persistent alterations in NK responses to influenza A virus infection.

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4.  Neonatal hyperoxia alters the host response to influenza A virus infection in adult mice through multiple pathways.

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6.  Neonatal oxygen exposure alters airway hyper-responsiveness but not the response to allergen challenge in adult mice.

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7.  Neonatal hyperoxia increases sensitivity of adult mice to bleomycin-induced lung fibrosis.

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9.  Electroporation-mediated gene delivery of Na+,K+ -ATPase, and ENaC subunits to the lung attenuates acute respiratory distress syndrome in a two-hit porcine model.

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