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Brachyury identifies a class of enteroendocrine cells in normal human intestinal crypts and colorectal cancer.


ABSTRACT: Normal homeostasis of adult intestinal epithelium and repair following tissue damage is maintained by a balance of stem and differentiated cells, many of which are still only poorly characterised. Enteroendocrine cells of the gut are a small population of differentiated, secretory cells that are critical for integrating nutrient sensing with metabolic responses, dispersed amongst other epithelial cells. Recent evidence suggests that sub-sets of secretory enteroendocrine cells can act as reserve stem cells. Given the link between cells with stem-like properties and cancer, it is important that we identify factors that might provide a bridge between the two. Here, we identify a sub-set of chromogranin A-positive enteroendocrine cells that are positive for the developmental and cancer-associated transcription factor Brachyury in normal human small intestinal and colonic crypts. Whilst chromogranin A-positive enteroendocrine cells are also Brachyury-positive in colorectal tumours, expression of Brachyury becomes more diffuse in these samples, suggesting a more widespread function in cancer. The finding of the developmental transcription factor Brachyury in normal adult human intestinal crypts may extend the functional complexity of enteroendocrine cells and serves as a platform for assessment of the molecular processes of intestinal homeostasis that underpins our understanding of human health, cancer and aging.

SUBMITTER: Jezkova J 

PROVIDER: S-EPMC4905487 | biostudies-literature | 2016 Mar

REPOSITORIES: biostudies-literature

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Brachyury identifies a class of enteroendocrine cells in normal human intestinal crypts and colorectal cancer.

Jezkova Jana J   Williams Jason S JS   Pinto Filipe F   Sammut Stephen J SJ   Williams Geraint T GT   Gollins Simon S   McFarlane Ramsay J RJ   Reis Rui Manuel RM   Wakeman Jane A JA  

Oncotarget 20160301 10


Normal homeostasis of adult intestinal epithelium and repair following tissue damage is maintained by a balance of stem and differentiated cells, many of which are still only poorly characterised. Enteroendocrine cells of the gut are a small population of differentiated, secretory cells that are critical for integrating nutrient sensing with metabolic responses, dispersed amongst other epithelial cells. Recent evidence suggests that sub-sets of secretory enteroendocrine cells can act as reserve  ...[more]

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2021-11-17 | GSE178342 | GEO