Transdifferentiation of Outgrowth Cells and Cultured Epithelial Cells from Swine Trachea

The morphologic and functional properties of explant out-growth cells and epithelial cells isolated from swine trachea epithelium by proteolysis were examined. A mixed population of ciliated, serous, and basal cells, obtained from outgrowths, from proteolysis of trachea epithelium, and from unattached explants in organ culture, all yielded cell cultures that were composed almost entirely of mucus-secreting cells. When the cells were grown in primary or secondary culture on a modified collagen matrix in supplemented HAM:DMEM (1:1) medium they expressed a mucus-secreting phenotype with numerous mucus granules at various stages of maturation and incorporated$[^{3}H]GlcN$and$^{35}SO_4$into secreted mucin glycoproteins. Results obtained in these studies suggest that extensive transdifferentiation of ciliated and serous cells to mucus-secreting cells occurs after the release and during subsequent attachment and culture. Ciliated cells containing mucus granules were seen in various stages of cilia resorption. Basal cells containing mucus granules were also frequently observed. The number of mucus-secreting cells and the synthesis of mucin glycoproteins increased dramatically with time of attachment and culture, whereas cell proliferation, population doubling time of 72 h, and incorporation of$[^{3}H]-thymidine$into DNA increased much more slowly. The number of mucus-secreting cells correlated closely with the level of secretion of mucin glycoproteins. Taken collectively, these studies help to elucidate the transdifferentiation process, which dramatically increases the number of mucus-secreting cells after disruption and release of epithelial cells from swine tracheobronchial epithelium. A similar mechanism involving disruption of the extracellular matrix may be involved in the stimulation of hypersecretion of mucus and mucin glycoproteins by chemical and infections irritants.