TRPM7 kinase is required for insulin production and compensatory islet responses during obesity

Most overweight individuals do not develop diabetes due to compensatory islet responses to restore glucose homeostasis. Therefore, regulatory pathways that promote β cell compensation are potential targets for treatment of diabetes. The transient receptor potential cation channel subfamily M member...

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Autores principales: Khajavi, Noushafarin, Beck, Andreas, Riçku, Klea, Beyerle, Philipp, Jacob, Katharina, Syamsul, Sabrina F., Belkacemi, Anouar, Reinach, Peter S., Schreier, Pascale C.F., Salah, Houssein, Popp, Tanja, Novikoff, Aaron, Breit, Andreas, Chubanov, Vladimir, Müller, Timo D., Zierler, Susanna, Gudermann, Thomas
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9977431/
https://www.ncbi.nlm.nih.gov/pubmed/36574297
http://dx.doi.org/10.1172/jci.insight.163397
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author Khajavi, Noushafarin
Beck, Andreas
Riçku, Klea
Beyerle, Philipp
Jacob, Katharina
Syamsul, Sabrina F.
Belkacemi, Anouar
Reinach, Peter S.
Schreier, Pascale C.F.
Salah, Houssein
Popp, Tanja
Novikoff, Aaron
Breit, Andreas
Chubanov, Vladimir
Müller, Timo D.
Zierler, Susanna
Gudermann, Thomas
author_facet Khajavi, Noushafarin
Beck, Andreas
Riçku, Klea
Beyerle, Philipp
Jacob, Katharina
Syamsul, Sabrina F.
Belkacemi, Anouar
Reinach, Peter S.
Schreier, Pascale C.F.
Salah, Houssein
Popp, Tanja
Novikoff, Aaron
Breit, Andreas
Chubanov, Vladimir
Müller, Timo D.
Zierler, Susanna
Gudermann, Thomas
author_sort Khajavi, Noushafarin
collection PubMed
description Most overweight individuals do not develop diabetes due to compensatory islet responses to restore glucose homeostasis. Therefore, regulatory pathways that promote β cell compensation are potential targets for treatment of diabetes. The transient receptor potential cation channel subfamily M member 7 protein (TRPM7), harboring a cation channel and a serine/threonine kinase, has been implicated in controlling cell growth and proliferation. Here, we report that selective deletion of Trpm7 in β cells disrupted insulin secretion and led to progressive glucose intolerance. We indicate that the diminished insulinotropic response in β cell–specific Trpm7-knockout mice was caused by decreased insulin production because of impaired enzymatic activity of this protein. Accordingly, high-fat–fed mice with a genetic loss of TRPM7 kinase activity displayed a marked glucose intolerance accompanied by hyperglycemia. These detrimental glucoregulatory effects were engendered by reduced compensatory β cell responses because of mitigated protein kinase B (AKT)/ERK signaling. Collectively, our data identify TRPM7 kinase as a potentially novel regulator of insulin synthesis, β cell dynamics, and glucose homeostasis under obesogenic diet.
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spelling pubmed-99774312023-03-02 TRPM7 kinase is required for insulin production and compensatory islet responses during obesity Khajavi, Noushafarin Beck, Andreas Riçku, Klea Beyerle, Philipp Jacob, Katharina Syamsul, Sabrina F. Belkacemi, Anouar Reinach, Peter S. Schreier, Pascale C.F. Salah, Houssein Popp, Tanja Novikoff, Aaron Breit, Andreas Chubanov, Vladimir Müller, Timo D. Zierler, Susanna Gudermann, Thomas JCI Insight Research Article Most overweight individuals do not develop diabetes due to compensatory islet responses to restore glucose homeostasis. Therefore, regulatory pathways that promote β cell compensation are potential targets for treatment of diabetes. The transient receptor potential cation channel subfamily M member 7 protein (TRPM7), harboring a cation channel and a serine/threonine kinase, has been implicated in controlling cell growth and proliferation. Here, we report that selective deletion of Trpm7 in β cells disrupted insulin secretion and led to progressive glucose intolerance. We indicate that the diminished insulinotropic response in β cell–specific Trpm7-knockout mice was caused by decreased insulin production because of impaired enzymatic activity of this protein. Accordingly, high-fat–fed mice with a genetic loss of TRPM7 kinase activity displayed a marked glucose intolerance accompanied by hyperglycemia. These detrimental glucoregulatory effects were engendered by reduced compensatory β cell responses because of mitigated protein kinase B (AKT)/ERK signaling. Collectively, our data identify TRPM7 kinase as a potentially novel regulator of insulin synthesis, β cell dynamics, and glucose homeostasis under obesogenic diet. American Society for Clinical Investigation 2023-02-08 /pmc/articles/PMC9977431/ /pubmed/36574297 http://dx.doi.org/10.1172/jci.insight.163397 Text en © 2023 Khajavi et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Khajavi, Noushafarin
Beck, Andreas
Riçku, Klea
Beyerle, Philipp
Jacob, Katharina
Syamsul, Sabrina F.
Belkacemi, Anouar
Reinach, Peter S.
Schreier, Pascale C.F.
Salah, Houssein
Popp, Tanja
Novikoff, Aaron
Breit, Andreas
Chubanov, Vladimir
Müller, Timo D.
Zierler, Susanna
Gudermann, Thomas
TRPM7 kinase is required for insulin production and compensatory islet responses during obesity
title TRPM7 kinase is required for insulin production and compensatory islet responses during obesity
title_full TRPM7 kinase is required for insulin production and compensatory islet responses during obesity
title_fullStr TRPM7 kinase is required for insulin production and compensatory islet responses during obesity
title_full_unstemmed TRPM7 kinase is required for insulin production and compensatory islet responses during obesity
title_short TRPM7 kinase is required for insulin production and compensatory islet responses during obesity
title_sort trpm7 kinase is required for insulin production and compensatory islet responses during obesity
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9977431/
https://www.ncbi.nlm.nih.gov/pubmed/36574297
http://dx.doi.org/10.1172/jci.insight.163397
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