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  • Title: Absorptive and mucus-secreting subclones isolated from a multipotent intestinal cell line (HT-29) provide new models for cell polarity and terminal differentiation.
    Author: Huet C, Sahuquillo-Merino C, Coudrier E, Louvard D.
    Journal: J Cell Biol; 1987 Jul; 105(1):345-57. PubMed ID: 3611191.
    Abstract:
    A clone HT29-18 has been isolated from the parent cell line HT-29, which derived from a human colon adenocarcinoma (Fogh, J., and G. Trempe, 1975, Human Tumor Cells in Vitro, J. Fogh, editor, Plenum Publishing Corp., New York, 115-141). This clone is able to differentiate as the parent cell line does. Differentiation occurs when glucose is replaced by galactose in the culture medium (Pinto, M., M.D. Appay, P. Simon-Assman, G. Chevalier, N. Dracopoli, J. Fogh, and A. Zweibaum, 1982, Biol. Cell., 44:193-196). We demonstrate here that the differentiated cloned population HT29-18/gal is heterogenous: although 90% of the cells show morphological characteristics of "absorptive cells", only 20-30% of them display sucrase-isomaltase in their apical microvillar membranes. About 10% of the entire cell population consists of cells containing mucous granules similar to intestinal goblet cells. We have isolated two subclones, HT29-18-C1 and HT29-18-N2, from the differentiated HT29-18/gal cells. HT29-18-C1 cells show morphological characteristics of polarized absorptive cells, when growing either in glucose- or in galactose-containing media, but the sucrase-isomaltase is not expressed in the cells grown in glucose-containing medium. The clone HT29-18-N2 is also polarized in both culture conditions and is similar to globlet cells in vivo. It grows as a monolayer, exhibits tight junctions, and contains numerous mucous granules whose exocytosis can be triggered by carbachol, a parasympathomimetic drug. We conclude that the clone HT29-18 first isolated was a multipotent cell population from which we isolated several subclones that differentiate either as absorptive (HT29-18-C1) or as mucous (HT29-18-N2) cells. In contrast to the parent HT-29 cell line, the subclones retain most of their differentiated properties in glucose-containing medium.
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