Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas.
BACKGROUND:Our previous studies have shown that signal transducer and activator of transcription 3 (STAT3) signaling is important for the development of pancreatic microvasculature via its regulation of vascular endothelial growth factor-A (VEGF-A). Pancreas-specific STAT3-KO mice exhibit glucose in...
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doaj-22c3f375c960460588fb272f6376ad972020-11-25T02:23:08ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0187e7127710.1371/journal.pone.0071277Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas.Elena KostrominaXiaorui WangWeiping HanBACKGROUND:Our previous studies have shown that signal transducer and activator of transcription 3 (STAT3) signaling is important for the development of pancreatic microvasculature via its regulation of vascular endothelial growth factor-A (VEGF-A). Pancreas-specific STAT3-KO mice exhibit glucose intolerance and impaired insulin secretion in vivo, along with microvascular alterations in the pancreas. However, the specific role of STAT3 signaling in the regulation of pancreatic islet development and function is not entirely understood. METHODOLOGY/PRINCIPAL FINDINGS:To investigate the role of STAT3 signaling in the formation and maintenance of pancreatic islets, we studied pancreas-specific STAT3-KO mice. Histological analysis showed that STAT3 deficiency affected pancreatic islet morphology. We found an increased proportion of small-sized islets and a reduced fraction of medium-sized islets, indicating abnormal islet development in STAT3-KO mice. Interestingly, the islet area relative to the whole pancreas area in transgenic and control mice was not significantly different. Immunohistochemical analysis on pancreatic cryosections revealed abnormalities in islet architecture in STAT3-KO mice: the pattern of peripheral distribution of glucagon-positive α-cells was altered. At the same time, islets belonging to different size categories isolated from STAT3-KO mice exhibited normal glucose-stimulated insulin secretion in perifusion experiments in vitro when compared to control mice. CONCLUSIONS:Our data demonstrate that STAT3 signaling in the pancreas is required for normal islet formation and/or maintenance. Altered islet size distribution in the KO mice does not result in an impaired islet secretory function in vitro. Therefore, our current study supports that the glucose intolerance and in vivo insulin secretion defect in pancreas-specific STAT3-KO mice is due to altered microvasculature in the pancreas, and not intrinsic beta-cell function.http://europepmc.org/articles/PMC3726616?pdf=render |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Elena Kostromina Xiaorui Wang Weiping Han |
spellingShingle |
Elena Kostromina Xiaorui Wang Weiping Han Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas. PLoS ONE |
author_facet |
Elena Kostromina Xiaorui Wang Weiping Han |
author_sort |
Elena Kostromina |
title |
Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas. |
title_short |
Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas. |
title_full |
Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas. |
title_fullStr |
Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas. |
title_full_unstemmed |
Altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas. |
title_sort |
altered islet morphology but normal islet secretory function in vitro in a mouse model with microvascular alterations in the pancreas. |
publisher |
Public Library of Science (PLoS) |
series |
PLoS ONE |
issn |
1932-6203 |
publishDate |
2013-01-01 |
description |
BACKGROUND:Our previous studies have shown that signal transducer and activator of transcription 3 (STAT3) signaling is important for the development of pancreatic microvasculature via its regulation of vascular endothelial growth factor-A (VEGF-A). Pancreas-specific STAT3-KO mice exhibit glucose intolerance and impaired insulin secretion in vivo, along with microvascular alterations in the pancreas. However, the specific role of STAT3 signaling in the regulation of pancreatic islet development and function is not entirely understood. METHODOLOGY/PRINCIPAL FINDINGS:To investigate the role of STAT3 signaling in the formation and maintenance of pancreatic islets, we studied pancreas-specific STAT3-KO mice. Histological analysis showed that STAT3 deficiency affected pancreatic islet morphology. We found an increased proportion of small-sized islets and a reduced fraction of medium-sized islets, indicating abnormal islet development in STAT3-KO mice. Interestingly, the islet area relative to the whole pancreas area in transgenic and control mice was not significantly different. Immunohistochemical analysis on pancreatic cryosections revealed abnormalities in islet architecture in STAT3-KO mice: the pattern of peripheral distribution of glucagon-positive α-cells was altered. At the same time, islets belonging to different size categories isolated from STAT3-KO mice exhibited normal glucose-stimulated insulin secretion in perifusion experiments in vitro when compared to control mice. CONCLUSIONS:Our data demonstrate that STAT3 signaling in the pancreas is required for normal islet formation and/or maintenance. Altered islet size distribution in the KO mice does not result in an impaired islet secretory function in vitro. Therefore, our current study supports that the glucose intolerance and in vivo insulin secretion defect in pancreas-specific STAT3-KO mice is due to altered microvasculature in the pancreas, and not intrinsic beta-cell function. |
url |
http://europepmc.org/articles/PMC3726616?pdf=render |
work_keys_str_mv |
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