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  • Interleukin-1β Promotes Epithelial-Derived Alveolar Elastogenesis via αvβ6 Integrin-Dependent TGF-β Activation.

Interleukin-1β Promotes Epithelial-Derived Alveolar Elastogenesis via αvβ6 Integrin-Dependent TGF-β Activation.

Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology (2015-08-19)
Jiarong Wang, Lei Bao, Benli Yu, Zhaoyun Liu, Wenli Han, Chun Deng, Chunbao Guo
ABSTRACT

IL-1β creates persistent pulmonary inflammation accompanied by elevated transforming growth factor β (TGF-β levels and is associated with abnormal elastogenesis, which is observed in bronchopulmonary dysplasia (BPD). Although progress has been made in this field, the mechanisms underlying this process remain only partially understood. We assessed aberrant elastin localization-associated signaling in mouse pups exposed to 85% O2 treated with either IL-1Ra or 1D11, using morphometric analyses, quantitative RT-PCR, immunostaining, and ELISA. We also evaluated the derivation of elastin-producing cells using dual marker tracking. The regulatory mechanisms of IL-1β were investigated in vitro in lung epithelial and mesenchymal cells. Elevated levels of IL-1β, αvβ6 and TGF-β1 were each associated with aberrant elastin production in O2-exposed lungs. IL-1Ra abolished TGF-β1 activation and αvβ6 upregulation, which occurred as a result of exposure to hyperoxia, whereas 1D11 had no discernible effect on the expression of either αvβ6 or IL-1β even following O2-exposure, suggesting that IL-1β was initially induced. Additionally, double staining revealed the presence of epithelium-derived elastin-producing cells, which was confirmed via in vitro IL-1β stress-induced epithelial-mesenchymal transformation (EMT) morphological and molecular marker changes, which may explain the altered lung elastin deposition and defective septation observed in BPD. These data support the hypothesis that IL-1β was initially induced by hyperoxia; αvβ6 subsequently interacted with and activated TGF-β1, acting as an epithelial/mesenchymal signaling molecule that contributed to excessive alveolar elastogenesis, the primary pathological feature of BPD.