Progressive development of gap junctions during growth of human pancreatic duct cells (Capan-1) in vitro and in vivo

Among their numerous functions, gap junctions play a crucial role in proliferation, differentiation and secretion processes, although their existence and potential role in ion secretion in human pancreatic ducts have yet to be established. To investigate the morphogenesis and the role of gap junctio...

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Published in:Biology of the cell 1995, Vol.85 (2), p.157-165
Main Authors: Monzat, Véronique, Fanjul, Marjorie, Leclerc, Catherine, Palévody, Claude, Briand, Jean-Paul, Jarry-Guichard, Thérèse, Gabrion, Jacqueline, Moreau, Marc, Hollande, Etienne
Format: Article
Language:English
Subjects:
adenocarcinoma
Adenocarcinoma - pathology
Adenocarcinoma - secretion
Alcohols - pharmacology
Animals
Cell Communication
Cell Differentiation
Cell Division
differentiation
Freeze Fracturing
gap junctions
Gap Junctions - metabolism
Heptanol
Humans
ion secretion
Ions
Mice
Mice, Nude
Neoplasm Transplantation
pancreatic duct cells
Pancreatic Ducts - cytology
Pancreatic Ducts - metabolism
Pancreatic Neoplasms - pathology
Pancreatic Neoplasms - secretion
Tumor Cells, Cultured
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Summary:Among their numerous functions, gap junctions play a crucial role in proliferation, differentiation and secretion processes, although their existence and potential role in ion secretion in human pancreatic ducts have yet to be established. To investigate the morphogenesis and the role of gap junctions in human pancreatic duct cells, the Capan-1 cell line maintained in culture or heterotransplanted into nude mice was employed as model system. Capan-1 cells polarize during their growth in vivo and in vitro forming duct-like structures. Furthermore in culture, after confluence, these cells form domes, which is indicative of ion exchange processes. After treatment with tannic acid and freeze-fracture, gap junctions were observed along the basolateral membranes of Capan-1 cells on electron microscopic examination. The presence of alkaline phosphatases on gap junctions was demonstrated cytoenzymatically. In addition, cell-to-cell communication was visualized by microinjection of Lucifer yellow. During differentiation of Capan-1 cells in culture, the frequency of intercellular communications increased markedly over the period (days 11–13) when the cells form duct-like structures. The increase in gap junctions was demonstrated by analysis of the polarized cells organized in duct-like structures that are commonly observed in the tumors formed by heterotransplantation of Capan-1 cells into nude mice. Furthermore, gap junctions associated with tight junctions were also observed in the cells forming such structures. The role of gap junctions in ion exchange was evaluated by counting the number of domes in cultures treated with heptanol. Heptanol (an uncoupling agent of gap junction communication) completely inhibited dome formation in a reversible way, and reduced the frequency of intercellular communications by 44%. These results suggest that the gap junctions expressed by Capan-1 cells are involved in ion secretion by the human cancerous pancreatic duct cell line, Capan-1. In the present study, we show that: i) the expression of gap junctions is linked to development of the spatial conformation of the cells; and ii) gap junctions may be involved in ion secretion.
ISSN:0248-4900
1768-322X
DOI:10.1016/0248-4900(96)85276-2