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Exp Lung Res ; 24(2): 189-202, 1998.
Article in English | MEDLINE | ID: mdl-9555576

ABSTRACT

The pulmonary response to various toxicants including bleomycin, ozone, ionizing radiation, and hyperoxia is highly variable among mouse strains. The current study tests the hypothesis that at a similar stage of injury, regardless of strain, expression of inflammatory cytokine and epithelial marker genes would be similar, indicating a common pathway of injury progression. Three strains of mice, C57B1/6J, 129/J, and C3H/HeJ, ranging from sensitive to resistant, were exposed to > 95% O2 for varying times. Ribonuclease protection was used to quantify changes in cytokine mRNA. Despite differences in the kinetics, each strain demonstrated similar hyperoxia-induced changes in the abundance of interleukin (IL)-6, IL-1 beta, IL-3, and tumor neucrosis factor (TNF)-alpha. For each strain, death was accompanied by similar increases in cytokine mRNAs above steady-state control levels. Other inflammatory cytokines, including IL-1 alpha, IL-4, and interferon (IFN)-gamma, were unaltered in all strains at all times. In situ hybridization analysis of the epithelial markers, surfactant protein B (SPB), and clara cell secretory protein (CCSP) at the time of proinflammatory induction showed a similar pattern of expression in all strains. Increased SPB was detected in bronchiolar epithelium, while the number of type II cells expressing this message declined. Both the number of cells expressing CCSP as well as abundance per cell declined. These results suggest that although differences in acute sensitivity to hyperoxia exist between mouse strains, once initiated, acute epithelial cell injury and associated inflammatory changes follow the same pattern in all strains.


Subject(s)
Cytokines/biosynthesis , Hyperoxia/complications , Hyperoxia/metabolism , Lung Diseases/chemically induced , Lung Diseases/metabolism , Oxygen/toxicity , Protein Biosynthesis , Proteolipids/biosynthesis , Pulmonary Surfactants/biosynthesis , Uteroglobin , Animals , Epithelium/metabolism , Male , Mice , Mice, Inbred C3H , Mice, Inbred C57BL , RNA, Messenger/metabolism , Ribonucleases/metabolism , Sensitivity and Specificity , Species Specificity
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