OBJECTIVE: Adult islet neogenesis is believed to recapitulate elements of pancreatic endocrine development. Identifying factors that regulate islet neogenesis-associated protein (INGAP) gene activity could provide links to pancreas development. METHODS: Predicted transcriptional regulators of INGAP were screened in an INGAP-promoter-reporter assay. Based upon their temporal expression, the occurrence of INGAP-positive cells during pancreas embryonic development were studied. RESULTS: Pancreatic transcription factors, PDX-1, Ngn3, NeuroD, and Isl-1, activated the INGAP promoter, but PAX4, PAX6, and Nkx2.2 did not. The INGAP-positive cells were present in the developing pancreatic bud of the mouse embryo. Emerging clusters of unorganized endocrine cells were INGAP positive. These cells coexpressed insulin or somatostatin, but glucagon-expressing cells remained distinct. The INGAP-positive cells were also detected in the maturing neonatal endocrine cells organized into islets. In direct contrast to the embryo, glucagon localized with most INGAP-positive cells in the postnatal endocrine cells. The INGAP-positive cells juxtaposed pancreatic duct cells. A subset of 5-bromo-2'-deoxyuridine-positive/INGAP-positive cells was detected in the neonatal pancreas. CONCLUSIONS: These data implicate INGAP and/or Reg family proteins in endocrine cell patterning during embryonic development and suggest that INGAP immunoreactivity is a key marker associated with early endocrine cells.
OBJECTIVE: Adult islet neogenesis is believed to recapitulate elements of pancreatic endocrine development. Identifying factors that regulate islet neogenesis-associated protein (INGAP) gene activity could provide links to pancreas development. METHODS: Predicted transcriptional regulators of INGAP were screened in an INGAP-promoter-reporter assay. Based upon their temporal expression, the occurrence of INGAP-positive cells during pancreas embryonic development were studied. RESULTS:Pancreatic transcription factors, PDX-1, Ngn3, NeuroD, and Isl-1, activated the INGAP promoter, but PAX4, PAX6, and Nkx2.2 did not. The INGAP-positive cells were present in the developing pancreatic bud of the mouse embryo. Emerging clusters of unorganized endocrine cells were INGAP positive. These cells coexpressed insulin or somatostatin, but glucagon-expressing cells remained distinct. The INGAP-positive cells were also detected in the maturing neonatal endocrine cells organized into islets. In direct contrast to the embryo, glucagon localized with most INGAP-positive cells in the postnatal endocrine cells. The INGAP-positive cells juxtaposed pancreatic duct cells. A subset of 5-bromo-2'-deoxyuridine-positive/INGAP-positive cells was detected in the neonatal pancreas. CONCLUSIONS: These data implicate INGAP and/or Reg family proteins in endocrine cell patterning during embryonic development and suggest that INGAP immunoreactivity is a key marker associated with early endocrine cells.
Authors: Sarah A Tersey; Jeffery D Carter; Lawrence Rosenberg; David A Taylor-Fishwick; Raghavendra G Mirmira; Jerry L Nadler Journal: J Diabetes Mellitus Date: 2012-05-01
Authors: Sanjeet G Patel; Guisheng Zhou; Shi-He Liu; Min Li; Jae-Wook Jeong; Francesco J DeMayo; Marie-Claude Gingras; Richard A Gibbs; William E Fisher; F Charles Brunicardi Journal: World J Surg Date: 2009-04 Impact factor: 3.352