The effects of culture conditions on growth and differentiation of human tracheobronchial epithelial (HTBE) cells have been defined. Epithelial cells were dissociated from tissues by protease treatment and were plated on tissue culture dishes in F12 medium supplemented with insulin, transferrin, epidermal growth factor, hydrocortisone, cholera toxin, bovine hypothalamus extract, and retinol. HTBE cells did not express any mucociliary function (ciliogenesis or mucin secretion) on tissue culture plastic, but they could be passaged 3 to 5 times with a total of 10 to 25 population doublings. Cells from early passages re-express both these functions when transplanted to tracheal grafts. When tissue culture plates were coated with collagen film or collagen gel substrata, cell attachment and proliferation were stimulated. However, the expression of mucous cell function in culture occurred only when cells were plated on collagen gel substrata and vitamin A (retinol) was present in the medium. Mucous cell differentiation under optimal conditions was defined by ultrastructural studies, by immunologic studies with mucin-specific monoclonal antibodies, and by carbohydrate and amino acid compositional analyses of mucin-like glycoproteins purified from culture medium. These results demonstrate for the first time that HTBE cells can express mucin synthesis and secretion under appropriate culture conditions.
Growth and differentiation of primary monkey tracheal epithelial (MTE) cells maintained on collagen gel substrata were studied in a defined serum-free culture medium containing 0.03 to 3.0 mM extracellular calcium. Cell attachment efficiency (40-60%) was not altered by different calcium levels. Growth of primary MTE cells on collagen gel substrata, which was vitamin A dependent, was enhanced 50% in the medium supplemented with high calcium (greater than 0.3 mM). High calcium medium also increased cell-cell interactions, formation of desmosomes, and multi-cell layering. The relative content of mucous cells, which were identified by a mucin-specific monoclonal antibody and the presence of mucus-secreting granules at the ultrastructural level, was greater in the high-calcium medium. Furthermore, the secretion of mucin into the medium, determined either by an ELISA or by the incorporation of 3H-glucosamine into mucous glycoprotein fractions, was also increased more than 5-fold in media containing high calcium content (greater than 0.6 mM). In contrast, MTE cells cultured in low calcium medium (less than 0.15 mM) were squamous-like with prominent tonofilaments, and their secretory product was mainly hyaluronate. These results demonstrate that media containing a high calcium content promote conducting airway epithelium to express mucous cell differentiation, while media with low calcium content promote squamous cell differentiation.
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