Persistent Localization of Activated Extracellular Signal-Regulated Kinases (ERK1/2) Is Epithelial Cell-Specific in an Inhalation Model of Asbestosis

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Persistent Localization of Activated Extracellular Signal-Regulated Kinases (ERK1/2) Is Epithelial Cell-Specific in an Inhalation Model of Asbestosis

Andrew B. Cummins, Cathy Palmer, Brooke T. Mossman and Douglas J. Taatjes

From the Department of Pathology and Microscopy Imaging Center, University of Vermont College of Medicine, Burlington, Vermont

Asbestos fibers up-regulate the extracellular signal-regulatedkinase (ERK1/2) pathway in mesothelial and pulmonary epithelialcells in vitro, but the cell-type expression patterns and intracellularlocalization of activated, ie, phosphorylated, ERK in the lungafter inhalation of asbestos are unclear. C57/BL6 mice wereexposed to 7-mg/m³ air of crocidolite asbestos for 5 and 30days, the times required for the development of epithelial cellhyperplasia and fibrotic lesions, respectively. Exposure toasbestos caused striking increases in both unphosphorylatedand phosphorylated ERK (p-ERK), which were most marked at 30days and co-localized in bronchiolar and alveolar epithelialcells using an antibody to cytokeratin. Alveolar macrophages,detected with an anti-macrophage antibody, did not express p-ERK.p-ERK was localized at the apical cell surface of bronchiolarand alveolar type II epithelial cells exposed to asbestos fibers,and was most marked in areas of epithelial hyperplasia in associationwith fibrotic lesions. Because translocation of p-ERK to thenucleus is associated with activation of early response genesand transcription factors, laser scanning cytometry was usedto determine the kinetics of activation and nuclear translocationof p-ERK in an alveolar type II epithelial cell line in vitroafter exposure to asbestos or the ERK stimuli, epidermal growthfactor, or H₂O₂. Results showed that cytoplasmic to nucleartranslocation of p-ERK occurred in a protracted manner in cellsexposed to asbestos. The immunolocalization of p-ERK at themembrane surface, a site of initial exposure to asbestos fibers,and the chronic activation of p-ERK in epithelial cells at sitesof fibrogenesis are consistent with the concept that epithelialcell signaling through the ERK pathway contributes to remodelingof the lung during the development of pulmonary fibrosis.

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Short Communication

Persistent Localization of Activated Extracellular Signal-Regulated Kinases (ERK1/2) Is Epithelial Cell-Specific in an Inhalation Model of Asbestosis