Transgenic Expression of a Single Transcription Factor Pdx1 Induces Transdifferentiation of Pancreatic Acinar Cells to Endocrine Cells in Adult Mice

A promising approach to new diabetes therapies is to generate β cells from other differentiated pancreatic cells in vivo. Because the acinar cells represent the most abundant cell type in the pancreas, an attractive possibility is to reprogram acinar cells into β cells. The transcription factor Pdx1...

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Veröffentlicht in:	PloS one 2016-08, Vol.11 (8), p.e0161190-e0161190
Hauptverfasser:	Miyazaki, Satsuki, Tashiro, Fumi, Miyazaki, Jun-Ichi
Format:	Artikel
Sprache:	eng
Schlagworte:	Acinar cells Acinar Cells - cytology Acinar Cells - metabolism Adenoviruses Analysis Animals Biology and Life Sciences Blood Glucose - metabolism Cell lineage Cell Transdifferentiation - genetics Cellular Reprogramming Diabetes Diabetes mellitus Duodenum Exocrine Glands - cytology Fluorescence Gene Expression Genes Glucagon Green fluorescent protein Green Fluorescent Proteins - genetics Homeobox Insulin Insulin - metabolism Islet cells Islets of Langerhans Medicine and Health Sciences Mice Mice, Transgenic Pancreas Pancreas - cytology Pancreatic beta cells Pancreatitis Research and Analysis Methods Rodents Somatostatin Stem cells Streptozocin Trans-Activators - genetics Transcription factors Transdifferentiation Transgenic mice University graduates
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description	A promising approach to new diabetes therapies is to generate β cells from other differentiated pancreatic cells in vivo. Because the acinar cells represent the most abundant cell type in the pancreas, an attractive possibility is to reprogram acinar cells into β cells. The transcription factor Pdx1 (Pancreas/duodenum homeobox protein 1) is essential for pancreatic development and cell lineage determination. Our objective is to examine whether exogenous expression of Pdx1 in acinar cells of adult mice might induce reprogramming of acinar cells into β cells. We established a transgenic mouse line in which Pdx1 and EGFP (enhanced green fluorescent protein) could be inducibly expressed in the acinar cells. After induction of Pdx1, we followed the acinar cells for their expression of exocrine and endocrine markers using cell-lineage tracing with EGFP. The acinar cell-specific expression of Pdx1 in adult mice reprogrammed the acinar cells as endocrine precursor cells, which migrated into the pancreatic islets and differentiated into insulin-, somatostatin-, or PP (pancreatic polypeptide)-producing endocrine cells, but not into glucagon-producing cells. When the mice undergoing such pancreatic reprogramming were treated with streptozotocin (STZ), the newly generated insulin-producing cells were able to ameliorate STZ-induced diabetes. This paradigm of in vivo reprogramming indicates that acinar cells hold promise as a source for new islet cells in regenerative therapies for diabetes.
doi_str_mv	10.1371/journal.pone.0161190
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Because the acinar cells represent the most abundant cell type in the pancreas, an attractive possibility is to reprogram acinar cells into β cells. The transcription factor Pdx1 (Pancreas/duodenum homeobox protein 1) is essential for pancreatic development and cell lineage determination. Our objective is to examine whether exogenous expression of Pdx1 in acinar cells of adult mice might induce reprogramming of acinar cells into β cells. We established a transgenic mouse line in which Pdx1 and EGFP (enhanced green fluorescent protein) could be inducibly expressed in the acinar cells. After induction of Pdx1, we followed the acinar cells for their expression of exocrine and endocrine markers using cell-lineage tracing with EGFP. The acinar cell-specific expression of Pdx1 in adult mice reprogrammed the acinar cells as endocrine precursor cells, which migrated into the pancreatic islets and differentiated into insulin-, somatostatin-, or PP (pancreatic polypeptide)-producing endocrine cells, but not into glucagon-producing cells. When the mice undergoing such pancreatic reprogramming were treated with streptozotocin (STZ), the newly generated insulin-producing cells were able to ameliorate STZ-induced diabetes. 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The acinar cell-specific expression of Pdx1 in adult mice reprogrammed the acinar cells as endocrine precursor cells, which migrated into the pancreatic islets and differentiated into insulin-, somatostatin-, or PP (pancreatic polypeptide)-producing endocrine cells, but not into glucagon-producing cells. When the mice undergoing such pancreatic reprogramming were treated with streptozotocin (STZ), the newly generated insulin-producing cells were able to ameliorate STZ-induced diabetes. This paradigm of in vivo reprogramming indicates that acinar cells hold promise as a source for new islet cells in regenerative therapies for diabetes.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>27526291</pmid><doi>10.1371/journal.pone.0161190</doi><tpages>e0161190</tpages><oa>free_for_read</oa></addata></record>
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subjects	Acinar cells Acinar Cells - cytology Acinar Cells - metabolism Adenoviruses Analysis Animals Biology and Life Sciences Blood Glucose - metabolism Cell lineage Cell Transdifferentiation - genetics Cellular Reprogramming Diabetes Diabetes mellitus Duodenum Exocrine Glands - cytology Fluorescence Gene Expression Genes Glucagon Green fluorescent protein Green Fluorescent Proteins - genetics Homeobox Insulin Insulin - metabolism Islet cells Islets of Langerhans Medicine and Health Sciences Mice Mice, Transgenic Pancreas Pancreas - cytology Pancreatic beta cells Pancreatitis Research and Analysis Methods Rodents Somatostatin Stem cells Streptozocin Trans-Activators - genetics Transcription factors Transdifferentiation Transgenic mice University graduates
title	Transgenic Expression of a Single Transcription Factor Pdx1 Induces Transdifferentiation of Pancreatic Acinar Cells to Endocrine Cells in Adult Mice
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