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Publication : PLAGL2 expression-induced lung epithelium damages at bronchiolar alveolar duct junction in emphysema: bNip3- and SP-C-associated cell death/injury activity.

First Author  Yang YS Year  2009
Journal  Am J Physiol Lung Cell Mol Physiol Volume  297
Issue  3 Pages  L455-66
PubMed ID  19574421 Mgi Jnum  J:152422
Mgi Id  MGI:4358669 Doi  10.1152/ajplung.00144.2009
Citation  Yang YS, et al. (2009) PLAGL2 expression-induced lung epithelium damages at bronchiolar alveolar duct junction in emphysema: bNip3- and SP-C-associated cell death/injury activity. Am J Physiol Lung Cell Mol Physiol 297(3):L455-66
abstractText  Emphysema and bronchitis are major components of chronic obstructive pulmonary disease (COPD). Pleomorphic adenoma gene like-2 (PLAGL2), a zinc finger DNA-binding protein, is a transcription factor of the surfactant protein C (SP-C) promoter. Using an inducible transgenic mouse model, PLAGL2 and SP-C were ectopically expressed in lung epithelial cells of terminal bronchiole including the bronchoalveolar duct junction (BADJ), where only few cells express both genes under normal conditions. Ectopic PLAGL2 was also expressed in alveolar type II cells of induced mice. The overexpression of PLAGL2 was associated with the development of air space enlargement in the distal airways of adult mice. Defective alveolar septa and degraded airway fragments were found in the lesions of emphysematous lungs, indicating chronic airway destruction. Female mice were particularly sensitive to the effects of PLAGL2 overexpression with more dramatic emphysematous changes compared with male mice. In addition, analysis of the respiratory system mechanics in the mice indicated that the induction of PLAGL2 resulted in a significant increase in respiratory system compliance. Both TdT-mediated dUTP nick end labeling (TUNEL) and caspase-3 analyses showed that apoptotic activity was increased in epithelial cells within the emphysematous lesions as well as at the BADJ. Our results indicate that increased cell injury and/or death could be caused directly by the upregulation of PLAGL2 downstream gene, bNip3, a preapoptotic molecule that dimerizes with Bcl-2, or indirectly by the aberrant expression of SP-C-induced endoplasmic reticulum stress in epithelial cells. Finally, increased expression of PLAGL2 in alveolar epithelial cells correlated with the development of emphysema in the lung of COPD patients. In summary, our data from both animal and human studies support a novel pathogenic role of PLAGL2 in pulmonary emphysema, a critical aspect of severe COPD.
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