Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain

Diabetes mellitus is a group of disorders characterized by prolonged high levels of circulating blood glucose. Type 1 diabetes is caused by decreased insulin production in the pancreas whereas type 2 diabetes may develop due to obesity and lack of exercise; it begins with insulin resistance whereby...

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Autores principales: Nikolakopoulou, Polyxeni, Chatzigeorgiou, Antonios, Kourtzelis, Ioannis, Toutouna, Louiza, Masjkur, Jimmy, Arps-Forker, Carina, Poser, Steven W., Rozman, Jan, Rathkolb, Birgit, Aguilar-Pimentel, Juan Antonio, Wolf, Eckhard, Klingenspor, Martin, Ollert, Markus, Schmidt-Weber, Carsten, Fuchs, Helmut, Gailus-Durner, Valerie, Hrabe de Angelis, Martin, Tsata, Vasiliki, Monasor, Laura Sebastian, Troullinaki, Maria, Witt, Anke, Anastasiou, Vivian, Chrousos, George, Yi, Chun-Xia, García-Cáceres, Cristina, Tschöp, Matthias H., Bornstein, Stefan R., Androutsellis-Theotokis, Andreas
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2018
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6063949/
https://www.ncbi.nlm.nih.gov/pubmed/30054579
http://dx.doi.org/10.1038/s41598-018-29434-2
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author Nikolakopoulou, Polyxeni
Chatzigeorgiou, Antonios
Kourtzelis, Ioannis
Toutouna, Louiza
Masjkur, Jimmy
Arps-Forker, Carina
Poser, Steven W.
Rozman, Jan
Rathkolb, Birgit
Aguilar-Pimentel, Juan Antonio
Wolf, Eckhard
Klingenspor, Martin
Ollert, Markus
Schmidt-Weber, Carsten
Fuchs, Helmut
Gailus-Durner, Valerie
Hrabe de Angelis, Martin
Tsata, Vasiliki
Monasor, Laura Sebastian
Troullinaki, Maria
Witt, Anke
Anastasiou, Vivian
Chrousos, George
Yi, Chun-Xia
García-Cáceres, Cristina
Tschöp, Matthias H.
Bornstein, Stefan R.
Androutsellis-Theotokis, Andreas
author_facet Nikolakopoulou, Polyxeni
Chatzigeorgiou, Antonios
Kourtzelis, Ioannis
Toutouna, Louiza
Masjkur, Jimmy
Arps-Forker, Carina
Poser, Steven W.
Rozman, Jan
Rathkolb, Birgit
Aguilar-Pimentel, Juan Antonio
Wolf, Eckhard
Klingenspor, Martin
Ollert, Markus
Schmidt-Weber, Carsten
Fuchs, Helmut
Gailus-Durner, Valerie
Hrabe de Angelis, Martin
Tsata, Vasiliki
Monasor, Laura Sebastian
Troullinaki, Maria
Witt, Anke
Anastasiou, Vivian
Chrousos, George
Yi, Chun-Xia
García-Cáceres, Cristina
Tschöp, Matthias H.
Bornstein, Stefan R.
Androutsellis-Theotokis, Andreas
author_sort Nikolakopoulou, Polyxeni
collection PubMed
description Diabetes mellitus is a group of disorders characterized by prolonged high levels of circulating blood glucose. Type 1 diabetes is caused by decreased insulin production in the pancreas whereas type 2 diabetes may develop due to obesity and lack of exercise; it begins with insulin resistance whereby cells fail to respond properly to insulin and it may also progress to decreased insulin levels. The brain is an important target for insulin, and there is great interest in understanding how diabetes affects the brain. In addition to the direct effects of insulin on the brain, diabetes may also impact the brain through modulation of the inflammatory system. Here we investigate how perturbation of circulating insulin levels affects the expression of Hes3, a transcription factor expressed in neural stem and progenitor cells that is involved in tissue regeneration. Our data show that streptozotocin-induced β-cell damage, high fat diet, as well as metformin, a common type 2 diabetes medication, regulate Hes3 levels in the brain. This work suggests that Hes3 is a valuable biomarker helping to monitor the state of endogenous neural stem and progenitor cells in the context of diabetes mellitus.
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spelling pubmed-60639492018-07-31 Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain Nikolakopoulou, Polyxeni Chatzigeorgiou, Antonios Kourtzelis, Ioannis Toutouna, Louiza Masjkur, Jimmy Arps-Forker, Carina Poser, Steven W. Rozman, Jan Rathkolb, Birgit Aguilar-Pimentel, Juan Antonio Wolf, Eckhard Klingenspor, Martin Ollert, Markus Schmidt-Weber, Carsten Fuchs, Helmut Gailus-Durner, Valerie Hrabe de Angelis, Martin Tsata, Vasiliki Monasor, Laura Sebastian Troullinaki, Maria Witt, Anke Anastasiou, Vivian Chrousos, George Yi, Chun-Xia García-Cáceres, Cristina Tschöp, Matthias H. Bornstein, Stefan R. Androutsellis-Theotokis, Andreas Sci Rep Article Diabetes mellitus is a group of disorders characterized by prolonged high levels of circulating blood glucose. Type 1 diabetes is caused by decreased insulin production in the pancreas whereas type 2 diabetes may develop due to obesity and lack of exercise; it begins with insulin resistance whereby cells fail to respond properly to insulin and it may also progress to decreased insulin levels. The brain is an important target for insulin, and there is great interest in understanding how diabetes affects the brain. In addition to the direct effects of insulin on the brain, diabetes may also impact the brain through modulation of the inflammatory system. Here we investigate how perturbation of circulating insulin levels affects the expression of Hes3, a transcription factor expressed in neural stem and progenitor cells that is involved in tissue regeneration. Our data show that streptozotocin-induced β-cell damage, high fat diet, as well as metformin, a common type 2 diabetes medication, regulate Hes3 levels in the brain. This work suggests that Hes3 is a valuable biomarker helping to monitor the state of endogenous neural stem and progenitor cells in the context of diabetes mellitus. Nature Publishing Group UK 2018-07-27 /pmc/articles/PMC6063949/ /pubmed/30054579 http://dx.doi.org/10.1038/s41598-018-29434-2 Text en © The Author(s) 2018 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Nikolakopoulou, Polyxeni
Chatzigeorgiou, Antonios
Kourtzelis, Ioannis
Toutouna, Louiza
Masjkur, Jimmy
Arps-Forker, Carina
Poser, Steven W.
Rozman, Jan
Rathkolb, Birgit
Aguilar-Pimentel, Juan Antonio
Wolf, Eckhard
Klingenspor, Martin
Ollert, Markus
Schmidt-Weber, Carsten
Fuchs, Helmut
Gailus-Durner, Valerie
Hrabe de Angelis, Martin
Tsata, Vasiliki
Monasor, Laura Sebastian
Troullinaki, Maria
Witt, Anke
Anastasiou, Vivian
Chrousos, George
Yi, Chun-Xia
García-Cáceres, Cristina
Tschöp, Matthias H.
Bornstein, Stefan R.
Androutsellis-Theotokis, Andreas
Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain
title Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain
title_full Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain
title_fullStr Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain
title_full_unstemmed Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain
title_short Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain
title_sort streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate hes3 expression in the adult mouse brain
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6063949/
https://www.ncbi.nlm.nih.gov/pubmed/30054579
http://dx.doi.org/10.1038/s41598-018-29434-2
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