Adult pancreatic acinar cells give rise to ducts but not endocrine cells in response to growth factor signaling

SA Blaine, KC Ray, R Anunobi, MA Gannon… - …, 2010 - journals.biologists.com
SA Blaine, KC Ray, R Anunobi, MA Gannon, MK Washington, AL Means
Development, 2010journals.biologists.com
Studies in both humans and rodents have found that insulin+ cells appear within or near
ducts of the adult pancreas, particularly following damage or disease, suggesting that these
insulin+ cells arise de novo from ductal epithelium. We have found that insulin+ cells are
continuous with duct cells in the epithelium that makes up the hyperplastic ducts of both
chronic pancreatitis and pancreatic cancer in humans. Therefore, we tested the hypothesis
that both hyperplastic ductal cells and their associated insulin+ cells arise from the same cell …
Studies in both humans and rodents have found that insulin+ cells appear within or near ducts of the adult pancreas, particularly following damage or disease, suggesting that these insulin+ cells arise de novo from ductal epithelium. We have found that insulin+ cells are continuous with duct cells in the epithelium that makes up the hyperplastic ducts of both chronic pancreatitis and pancreatic cancer in humans. Therefore, we tested the hypothesis that both hyperplastic ductal cells and their associated insulin+ cells arise from the same cell of origin. Using a mouse model that develops insulin+ cell-containing hyperplastic ducts in response to the growth factor TGFα, we performed genetic lineage tracing experiments to determine which cells gave rise to both hyperplastic ductal cells and duct-associated insulin+ cells. We found that hyperplastic ductal cells arose largely from acinar cells that changed their cell fate, or transdifferentiated, into ductal cells. However, insulin+ cells adjacent to acinar-derived ductal cells arose from pre-existing insulin+ cells, suggesting that islet endocrine cells can intercalate into hyperplastic ducts as they develop. We conclude that apparent pancreatic plasticity can result both from the ability of acinar cells to change fate and of endocrine cells to reorganize in association with duct structures.
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