Metabolic and temporal studies on pancreatic exocrine cells in culture

Abstract

An approach is described whereby cells with definitive markers are followed from their source through dissociation and fractionation, then during long-term maintenance in vitro. Such sequential studies should enable investigators to define factors regulating proliferation and function of specific cells since ambiguity concerning identity is readily avoided. Pancreatic cells of guinea pigs were isolated by enzymic dissociation, and exocrine cells were enriched by centrifugation with solutions of serum albumin. Resulting populations consisting of up to 95% exocrine cells were then incubated with gyration to produce aggregates, and these were seeded to standard culture plates for further study. Colonial aggregates of exocrine epithelia develop in culture and can be maintained for 20–30 days. The cells exhibit changes with time that are qualitatively similar to those known to occur during serial cultivation of diploid fibroblastlike cells from human and other species. The uptake of tritiated thymidine decreases with maintenance time. Autoradiographic examination indicates that this is due to a reduction in the number of epithelial cells incorporating the isotope. Cell diameters increase from an average of 21 μm at day 0 to 44 μm by day 26, and a marked increase in heterogeneity of this parameter is also evident. Cellular DNA and protein accumulate during the same interval. Incorporation of tritiated leucine during 24-h exposures increases until about the 10th day in vitro and remains relatively constant for at least 2 weeks thereafter. The data are consistent with the hypothesis that exocrine pancreatic cells like other diploid cells in culture, progress to terminal differentiation under the culture conditions employed. The role of physical, nutritional, and humoral evironmental factors on this process will be the subject of future reports.