Modulation of pulmonary alveolar type II cell phenotype and communication by extracellular matrix and KGF

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Modulation of pulmonary alveolar type II cell phenotype and communication by extracellular matrix and KGF

Brant E. Isakson¹, Richard L. Lubman², Gregory J. Seedorf¹, and Scott Boitano¹

¹ Department of Zoology and Physiology, University of Wyoming, Laramie, Wyoming 82071-3166; and ² Division of Pulmonary & Critical Care Medicine, Keck School of Medicine, University of Southern California, Los Angeles, California 90033

The alveolar epithelium consists of two cell types, alveolar type I (AT1) and alveolar type II (AT2) cells. We have recentlyshown that 7-day-old cultures of AT2 cells grown on a type I collagen/fibronectinmatrix develop phenotypic characteristics of AT1 cells, displaya distinct connexin profile, and coordinate mechanically inducedintercellular Ca²⁺ changes via gap junctions (25). In this study, we cultured AT2cells for 7 days on matrix supplemented with laminin-5 and/orin the presence of keratinocyte growth factor. Under these conditions,cultured AT2 cells display AT2 type morphology, express the AT2-specificmarker surfactant protein C, and do not express AT1-specific cellmarker aquaporin 5, all consistent with maintenance of AT2 phenotype.These AT2-like cells also coordinate mechanically induced intercellularCa²⁺ signaling, but, unlike AT1-like cells, do so by using extracellularnucleotide triphosphate release. Additionally, cultured cellsthat retain AT2 cell-specific markers express connexin profilesdifferent from cultured cells with AT1 characteristics. The parallelchanges in intercellular Ca²⁺ signaling with cell differentiation suggest that cell signalingmechanisms are an intrinsic component of lung alveolar cell phenotype.Because lung epithelial injury is accompanied by extracellularmatrix and growth factor changes, followed by extensive cell division,differentiation, and migration of AT2 progenitor cells, we suggestthat similar changes may be vital to the lung recovery and repairprocess invivo.

connexin; gap junction; keratinocyte growth factor; laminin-5; intercellular communication

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