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Suppression of Ptf1a activity induces acinar-to-endocrine conversion.

Curr. Biol.2011 Apr 26;21(8):712-7. Epub 2011 Apr 14
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摘要


Pluripotent embryonic cells become progressively lineage restricted during development in a process that culminates in the differentiation of stable organ-specific cell types that perform specialized functions. Terminally differentiated pancreatic acinar cells do not have the innate capacity to contribute to the endocrine β cell lineage, which is destroyed in individuals with autoimmune diabetes. Some cell types can be reprogrammed using a single factor, whereas other cell types require continuous activity of transcriptional regulators to repress alternate cell fates. Thus, we hypothesized that a transcriptional network continuously maintains the pancreatic acinar cell fate. We found that postembryonic antagonism of Ptf1a, a master regulator of pancreatic development and acinar cell fate specification, induced the expression of endocrine genes including insulin in the exocrine compartment. Using a genetic lineage tracing approach, we show that the induced insulin+ cells are derived from acinar cells. Cellular reprogramming occurred under homeostatic conditions, suggesting that the pancreatic microenvironment is sufficient to promote endocrine differentiation. Thus, severe experimental manipulations may not be required to potentiate pancreatic transdifferentiation. These data indicate that targeted postembryonic disruption of the acinar cell fate can restore the developmental plasticity that is lost during development. Copyright © 2011 Elsevier Ltd. All rights reserved.

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