Reference : Impaired insulin secretory capacity in mice lacking a functional vitamin D receptor.
Scientific journals : Article
Life sciences : Genetics & genetic processes
http://hdl.handle.net/10993/2676
Impaired insulin secretory capacity in mice lacking a functional vitamin D receptor.
English
Zeitz, Ute [> >]
Weber, Karin [> >]
Soegiarto, Desi W. [> >]
Wolf, Eckhard [> >]
Balling, Rudi mailto [> >]
Erben, Reinhold G. [> >]
2003
FASEB Journal
17
3
509-11
Yes (verified by ORBilu)
0892-6638
1530-6860
United States
[en] Animals ; Calcitriol/physiology ; Genes, Reporter ; Glucose Tolerance Test ; Insulin/genetics/metabolism/secretion ; Islets of Langerhans/anatomy & histology/metabolism/secretion ; Male ; Mice ; Models, Biological ; Mutation ; Pancreas/metabolism ; RNA, Messenger/metabolism ; Receptors, Calcitriol/genetics
[en] It was the aim of this study to further explore the functional role of vitamin D in the endocrine pancreas. By gene targeting, we have recently generated mice in which a lacZ reporter gene is driven by the endogenous vitamin D receptor (VDR) promoter. These mice express a functionally inactive mutant VDR. Pancreatic islets but not exocrine pancreas cells showed strong lacZ reporter gene expression in mutant mice. To rule out possible influences of hypocalcemia on pancreatic endocrine function, a rescue diet enriched with calcium, phosphorus, and lactose was fed to wild-type (WT) and VDR mutant mice. The rescue diet normalized body weight and mineral homeostasis in VDR mutants. In glucose tolerance tests, baseline blood glucose levels were unchanged in fasting VDR mutants. However, blood glucose was elevated after oral or subcutaneous glucose loading, and maximum serum insulin levels were reduced by approximately 60% in VDR mutants vs. WT mice on either diet. In addition, insulin mRNA levels were decreased in VDR mutant mice on both diets, whereas pancreatic beta cell mass, islet architecture, and islet neogenesis were normal. These findings clearly establish a molecular role of the vitamin D-responsive elements in pancreatic insulin synthesis and secretion in vivo.
http://hdl.handle.net/10993/2676
10.1096/fj.02-0424fje

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