hZnT8 (Slc30a8) Transgenic Mice That Overexpress the R325W Polymorph Have Reduced Islet Zn2+ and Proinsulin Levels, Increased Glucose Tolerance After a High-Fat Diet, and Altered Levels of Pancreatic Zinc Binding Proteins
Zinc (Zn ) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell-specific Zn transporter, ZNT8, is linked to T2DM susceptibility. ZnT8 null mice have a mild phenotype with a slight decrease in glucose tolerance, whereas patients with the ZnT8 R3...
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| Published in | Diabetes (New York, N.Y.) Vol. 66; no. 2; pp. 551 - 559 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Diabetes Association
01.02.2017
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| Subjects | |
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| Abstract | Zinc (Zn
) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell-specific Zn
transporter, ZNT8, is linked to T2DM susceptibility. ZnT8 null mice have a mild phenotype with a slight decrease in glucose tolerance, whereas patients with the ZnT8 R325W polymorphism (rs13266634) have decreased proinsulin staining and susceptibility to T2DM. We measured Zn
, insulin, and proinsulin stainings and performed intraperitoneal glucose tolerance testing in transgenic mice overexpressing hZnT8 WT or hZnT8 R325W fed a normal or high-fat diet. The hZnT8 R325W transgenic line had lower pancreatic [Zn
]
and proinsulin and higher insulin and glucose tolerance compared with control littermates after 10 weeks of a high-fat diet in male mice. The converse was true for the hZnT8 WT transgenic line, and dietary Zn
supplementation also induced glucose intolerance. Finally, pancreatic zinc binding proteins were identified by Zn
-affinity chromatography and proteomics. Increasing pancreatic Zn
(hZnT8WT) induced nucleoside diphosphate kinase B, and Zn
reduction (hZnT8RW) induced carboxypeptidase A1. These data suggest that pancreatic Zn
and proinsulin levels covary but are inversely variant with insulin or glucose tolerance in the HFD model of T2DM suggesting novel therapeutic targets. |
|---|---|
| AbstractList | Zinc (Zn2+) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the beta -cell-specific Zn2+ transporter, ZNT8, is linked to T2DM susceptibility. ZnT8 null mice have a mild phenotype with a slight decrease in glucose tolerance, whereas patients with the ZnT8 R325W polymorphism (rs13266634) have decreased proinsulin staining and susceptibility to T2DM. We measured Zn2+, insulin, and proinsulin stainings and performed intraperitoneal glucose tolerance testing in transgenic mice overexpressing hZnT8 WT or hZnT8 R325W fed a normal or high-fat diet. The hZnT8 R325W transgenic line had lower pancreatic [Zn2+]i and proinsulin and higher insulin and glucose tolerance compared with control littermates after 10 weeks of a high-fat diet in male mice. The converse was true for the hZnT8 WT transgenic line, and dietary Zn2+ supplementation also induced glucose intolerance. Finally, pancreatic zinc binding proteins were identified by Zn2+-affinity chromatography and proteomics. Increasing pancreatic Zn2+ (hZnT8WT) induced nucleoside diphosphate kinase B, and Zn2+ reduction (hZnT8RW) induced carboxypeptidase A1. These data suggest that pancreatic Zn2+ and proinsulin levels covary but are inversely variant with insulin or glucose tolerance in the HFD model of T2DM suggesting novel therapeutic targets. Zinc (Zn ) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell-specific Zn transporter, ZNT8, is linked to T2DM susceptibility. ZnT8 null mice have a mild phenotype with a slight decrease in glucose tolerance, whereas patients with the ZnT8 R325W polymorphism (rs13266634) have decreased proinsulin staining and susceptibility to T2DM. We measured Zn , insulin, and proinsulin stainings and performed intraperitoneal glucose tolerance testing in transgenic mice overexpressing hZnT8 WT or hZnT8 R325W fed a normal or high-fat diet. The hZnT8 R325W transgenic line had lower pancreatic [Zn ] and proinsulin and higher insulin and glucose tolerance compared with control littermates after 10 weeks of a high-fat diet in male mice. The converse was true for the hZnT8 WT transgenic line, and dietary Zn supplementation also induced glucose intolerance. Finally, pancreatic zinc binding proteins were identified by Zn -affinity chromatography and proteomics. Increasing pancreatic Zn (hZnT8WT) induced nucleoside diphosphate kinase B, and Zn reduction (hZnT8RW) induced carboxypeptidase A1. These data suggest that pancreatic Zn and proinsulin levels covary but are inversely variant with insulin or glucose tolerance in the HFD model of T2DM suggesting novel therapeutic targets. Zinc (Zn2+) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell-specific Zn2+ transporter, ZNT8, is linked to T2DM susceptibility. ZnT8 null mice have a mild phenotype with a slight decrease in glucose tolerance, whereas patients with the ZnT8 R325W polymorphism (rs13266634) have decreased proinsulin staining and susceptibility to T2DM. We measured Zn2+, insulin, and proinsulin stainings and performed intraperitoneal glucose tolerance testing in transgenic mice overexpressing hZnT8 WT or hZnT8 R325W fed a normal or high-fat diet. The hZnT8 R325W transgenic line had lower pancreatic [Zn2+]i and proinsulin and higher insulin and glucose tolerance compared with control littermates after 10 weeks of a high-fat diet in male mice. The converse was true for the hZnT8 WT transgenic line, and dietary Zn2+ supplementation also induced glucose intolerance. Finally, pancreatic zinc binding proteins were identified by Zn2+-affinity chromatography and proteomics. Increasing pancreatic Zn2+ (hZnT8WT) induced nucleoside diphosphate kinase B, and Zn2+ reduction (hZnT8RW) induced carboxypeptidase A1. These data suggest that pancreatic Zn2+ and proinsulin levels covary but are inversely variant with insulin or glucose tolerance in the HFD model of T2DM suggesting novel therapeutic targets. Zinc (Zn 2+ ) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell–specific Zn 2+ transporter, ZNT8, is linked to T2DM susceptibility. ZnT8 null mice have a mild phenotype with a slight decrease in glucose tolerance, whereas patients with the ZnT8 R325W polymorphism (rs13266634) have decreased proinsulin staining and susceptibility to T2DM. We measured Zn 2+ , insulin, and proinsulin stainings and performed intraperitoneal glucose tolerance testing in transgenic mice overexpressing hZnT8 WT or hZnT8 R325W fed a normal or high-fat diet. The hZnT8 R325W transgenic line had lower pancreatic [Zn 2+ ] i and proinsulin and higher insulin and glucose tolerance compared with control littermates after 10 weeks of a high-fat diet in male mice. The converse was true for the hZnT8 WT transgenic line, and dietary Zn 2+ supplementation also induced glucose intolerance. Finally, pancreatic zinc binding proteins were identified by Zn 2+ -affinity chromatography and proteomics. Increasing pancreatic Zn 2+ (hZnT8WT) induced nucleoside diphosphate kinase B, and Zn 2+ reduction (hZnT8RW) induced carboxypeptidase A1. These data suggest that pancreatic Zn 2+ and proinsulin levels covary but are inversely variant with insulin or glucose tolerance in the HFD model of T2DM suggesting novel therapeutic targets. |
| Author | Bai, Shi Li, Li Sheline, Christian T |
| Author_xml | – sequence: 1 givenname: Li surname: Li fullname: Li, Li organization: Department of Ophthalmology and the Neuroscience Center of Excellence, Louisiana State University Health Sciences Center, New Orleans, LA – sequence: 2 givenname: Shi surname: Bai fullname: Bai, Shi organization: Department of Ophthalmology and the Neuroscience Center of Excellence, Louisiana State University Health Sciences Center, New Orleans, LA – sequence: 3 givenname: Christian T surname: Sheline fullname: Sheline, Christian T email: christian.sheline@stonybrookmedicine.edu organization: Department of Neurology, Stony Brook University Hospital, Stony Brook, NY |
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| Snippet | Zinc (Zn
) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell-specific Zn
transporter, ZNT8, is... Zinc (Zn2+) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell–specific Zn2+ transporter, ZNT8, is... Zinc (Zn2+) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell-specific Zn2+ transporter, ZNT8, is... Zinc (Zn2+) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the beta -cell-specific Zn2+ transporter, ZNT8,... Zinc (Zn 2+ ) is involved in both type 1 diabetes (T1DM) and type 2 diabetes (T2DM). The wild-type (WT) form of the β-cell–specific Zn 2+ transporter, ZNT8, is... |
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| SubjectTerms | Animals Carboxypeptidases A - metabolism Carrier Proteins - metabolism Cation Transport Proteins - genetics Diet, High-Fat Dietary Supplements Genetics/Genomes/Proteomics/Metabolomics Glucose Intolerance - genetics Glucose Intolerance - metabolism Glucose Tolerance Test Humans Immunohistochemistry Male Mice Mice, Transgenic NM23 Nucleoside Diphosphate Kinases - metabolism Pancreas - drug effects Pancreas - metabolism Polymorphism, Genetic Proinsulin - metabolism Zinc - metabolism Zinc - pharmacology Zinc Transporter 8 |
| Title | hZnT8 (Slc30a8) Transgenic Mice That Overexpress the R325W Polymorph Have Reduced Islet Zn2+ and Proinsulin Levels, Increased Glucose Tolerance After a High-Fat Diet, and Altered Levels of Pancreatic Zinc Binding Proteins |
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