Cargando…
SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress
BACKGROUND: Ion transporters of the Slc30A- (ZnT-) family regulate zinc fluxes into sub-cellular compartments. β-cells depend on zinc for both insulin crystallization and regulation of cell mass. METHODOLOGY/PRINCIPAL FINDINGS: This study examined: the effect of glucose and zinc chelation on ZnT gen...
| Autores principales: | , , , , , , , , , , , , , |
|---|---|
| Formato: | Texto |
| Lenguaje: | English |
| Publicado: |
Public Library of Science
2009
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2683566/ https://www.ncbi.nlm.nih.gov/pubmed/19492079 http://dx.doi.org/10.1371/journal.pone.0005684 |
| _version_ | 1782167123029655552 |
|---|---|
| author | Smidt, Kamille Jessen, Niels Petersen, Andreas Brønden Larsen, Agnete Magnusson, Nils Jeppesen, Johanne Bruun Stoltenberg, Meredin Culvenor, Janetta G. Tsatsanis, Andrew Brock, Birgitte Schmitz, Ole Wogensen, Lise Bush, Ashley I. Rungby, Jørgen |
| author_facet | Smidt, Kamille Jessen, Niels Petersen, Andreas Brønden Larsen, Agnete Magnusson, Nils Jeppesen, Johanne Bruun Stoltenberg, Meredin Culvenor, Janetta G. Tsatsanis, Andrew Brock, Birgitte Schmitz, Ole Wogensen, Lise Bush, Ashley I. Rungby, Jørgen |
| author_sort | Smidt, Kamille |
| collection | PubMed |
| description | BACKGROUND: Ion transporters of the Slc30A- (ZnT-) family regulate zinc fluxes into sub-cellular compartments. β-cells depend on zinc for both insulin crystallization and regulation of cell mass. METHODOLOGY/PRINCIPAL FINDINGS: This study examined: the effect of glucose and zinc chelation on ZnT gene and protein levels and apoptosis in β-cells and pancreatic islets, the effects of ZnT-3 knock-down on insulin secretion in a β-cell line and ZnT-3 knock-out on glucose metabolism in mice during streptozotocin-induced β-cell stress. In INS-1E cells 2 mM glucose down-regulated ZnT-3 and up-regulated ZnT-5 expression relative to 5 mM. 16 mM glucose increased ZnT-3 and decreased ZnT-8 expression. Zinc chelation by DEDTC lowered INS-1E insulin content and insulin expression. Furthermore, zinc depletion increased ZnT-3- and decreased ZnT-8 gene expression whereas the amount of ZnT-3 protein in the cells was decreased. Zinc depletion and high glucose induced apoptosis and necrosis in INS-1E cells. The most responsive zinc transporter, ZnT-3, was investigated further; by immunohistochemistry and western blotting ZnT-3 was demonstrated in INS-1E cells. 44% knock-down of ZnT-3 by siRNA transfection in INS-1E cells decreased insulin expression and secretion. Streptozotocin-treated mice had higher glucose levels after ZnT-3 knock-out, particularly in overt diabetic animals. CONCLUSION/SIGNIFICANCE: Zinc transporting proteins in β-cells respond to variations in glucose and zinc levels. ZnT-3, which is pivotal in the development of cellular changes as also seen in type 2 diabetes (e.g. amyloidosis in Alzheimer's disease) but not previously described in β-cells, is present in this cell type, up-regulated by glucose in a concentration dependent manner and up-regulated by zinc depletion which by contrast decreased ZnT-3 protein levels. Knock-down of the ZnT-3 gene lowers insulin secretion in vitro and affects in vivo glucose metabolism after streptozotocin treatment. |
| format | Text |
| id | pubmed-2683566 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2009 |
| publisher | Public Library of Science |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-26835662009-06-02 SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress Smidt, Kamille Jessen, Niels Petersen, Andreas Brønden Larsen, Agnete Magnusson, Nils Jeppesen, Johanne Bruun Stoltenberg, Meredin Culvenor, Janetta G. Tsatsanis, Andrew Brock, Birgitte Schmitz, Ole Wogensen, Lise Bush, Ashley I. Rungby, Jørgen PLoS One Research Article BACKGROUND: Ion transporters of the Slc30A- (ZnT-) family regulate zinc fluxes into sub-cellular compartments. β-cells depend on zinc for both insulin crystallization and regulation of cell mass. METHODOLOGY/PRINCIPAL FINDINGS: This study examined: the effect of glucose and zinc chelation on ZnT gene and protein levels and apoptosis in β-cells and pancreatic islets, the effects of ZnT-3 knock-down on insulin secretion in a β-cell line and ZnT-3 knock-out on glucose metabolism in mice during streptozotocin-induced β-cell stress. In INS-1E cells 2 mM glucose down-regulated ZnT-3 and up-regulated ZnT-5 expression relative to 5 mM. 16 mM glucose increased ZnT-3 and decreased ZnT-8 expression. Zinc chelation by DEDTC lowered INS-1E insulin content and insulin expression. Furthermore, zinc depletion increased ZnT-3- and decreased ZnT-8 gene expression whereas the amount of ZnT-3 protein in the cells was decreased. Zinc depletion and high glucose induced apoptosis and necrosis in INS-1E cells. The most responsive zinc transporter, ZnT-3, was investigated further; by immunohistochemistry and western blotting ZnT-3 was demonstrated in INS-1E cells. 44% knock-down of ZnT-3 by siRNA transfection in INS-1E cells decreased insulin expression and secretion. Streptozotocin-treated mice had higher glucose levels after ZnT-3 knock-out, particularly in overt diabetic animals. CONCLUSION/SIGNIFICANCE: Zinc transporting proteins in β-cells respond to variations in glucose and zinc levels. ZnT-3, which is pivotal in the development of cellular changes as also seen in type 2 diabetes (e.g. amyloidosis in Alzheimer's disease) but not previously described in β-cells, is present in this cell type, up-regulated by glucose in a concentration dependent manner and up-regulated by zinc depletion which by contrast decreased ZnT-3 protein levels. Knock-down of the ZnT-3 gene lowers insulin secretion in vitro and affects in vivo glucose metabolism after streptozotocin treatment. Public Library of Science 2009-05-25 /pmc/articles/PMC2683566/ /pubmed/19492079 http://dx.doi.org/10.1371/journal.pone.0005684 Text en Smidt et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited. |
| spellingShingle | Research Article Smidt, Kamille Jessen, Niels Petersen, Andreas Brønden Larsen, Agnete Magnusson, Nils Jeppesen, Johanne Bruun Stoltenberg, Meredin Culvenor, Janetta G. Tsatsanis, Andrew Brock, Birgitte Schmitz, Ole Wogensen, Lise Bush, Ashley I. Rungby, Jørgen SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress |
| title | SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress |
| title_full | SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress |
| title_fullStr | SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress |
| title_full_unstemmed | SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress |
| title_short | SLC30A3 Responds to Glucose- and Zinc Variations in ß-Cells and Is Critical for Insulin Production and In Vivo Glucose-Metabolism During ß-Cell Stress |
| title_sort | slc30a3 responds to glucose- and zinc variations in ß-cells and is critical for insulin production and in vivo glucose-metabolism during ß-cell stress |
| topic | Research Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2683566/ https://www.ncbi.nlm.nih.gov/pubmed/19492079 http://dx.doi.org/10.1371/journal.pone.0005684 |
| work_keys_str_mv | AT smidtkamille slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT jessenniels slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT petersenandreasbrønden slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT larsenagnete slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT magnussonnils slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT jeppesenjohannebruun slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT stoltenbergmeredin slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT culvenorjanettag slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT tsatsanisandrew slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT brockbirgitte slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT schmitzole slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT wogensenlise slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT bushashleyi slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress AT rungbyjørgen slc30a3respondstoglucoseandzincvariationsinßcellsandiscriticalforinsulinproductionandinvivoglucosemetabolismduringßcellstress |