Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice

Chronic Mg(2+) deficiency is the underlying cause of a broad range of health dysfunctions. As 25% of body Mg(2+) is located in the skeletal muscle, Mg(2+) transport and homeostasis systems (MgTHs) in the muscle are critical for whole-body Mg(2+) homeostasis. In the present study, we assessed whether...

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Autores principales: Bayle, Dominique, Coudy-Gandilhon, Cécile, Gueugneau, Marine, Castiglioni, Sara, Zocchi, Monica, Maj-Zurawska, Magdalena, Palinska-Saadi, Adriana, Mazur, André, Béchet, Daniel, Maier, Jeanette A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8308210/
https://www.ncbi.nlm.nih.gov/pubmed/34202561
http://dx.doi.org/10.3390/nu13072169
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author Bayle, Dominique
Coudy-Gandilhon, Cécile
Gueugneau, Marine
Castiglioni, Sara
Zocchi, Monica
Maj-Zurawska, Magdalena
Palinska-Saadi, Adriana
Mazur, André
Béchet, Daniel
Maier, Jeanette A.
author_facet Bayle, Dominique
Coudy-Gandilhon, Cécile
Gueugneau, Marine
Castiglioni, Sara
Zocchi, Monica
Maj-Zurawska, Magdalena
Palinska-Saadi, Adriana
Mazur, André
Béchet, Daniel
Maier, Jeanette A.
author_sort Bayle, Dominique
collection PubMed
description Chronic Mg(2+) deficiency is the underlying cause of a broad range of health dysfunctions. As 25% of body Mg(2+) is located in the skeletal muscle, Mg(2+) transport and homeostasis systems (MgTHs) in the muscle are critical for whole-body Mg(2+) homeostasis. In the present study, we assessed whether Mg(2+) deficiency alters muscle fiber characteristics and major pathways regulating muscle physiology. C57BL/6J mice received either a control, mildly, or severely Mg(2+)-deficient diet (0.1%; 0.01%; and 0.003% Mg(2+) wt/wt, respectively) for 14 days. Mg(2+) deficiency slightly decreased body weight gain and muscle Mg(2+) concentrations but was not associated with detectable variations in gastrocnemius muscle weight, fiber morphometry, and capillarization. Nonetheless, muscles exhibited decreased expression of several MgTHs (MagT1, CNNM2, CNNM4, and TRPM6). Moreover, TaqMan low-density array (TLDA) analyses further revealed that, before the emergence of major muscle dysfunctions, even a mild Mg(2+) deficiency was sufficient to alter the expression of genes critical for muscle physiology, including energy metabolism, muscle regeneration, proteostasis, mitochondrial dynamics, and excitation–contraction coupling.
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spelling pubmed-83082102021-07-25 Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice Bayle, Dominique Coudy-Gandilhon, Cécile Gueugneau, Marine Castiglioni, Sara Zocchi, Monica Maj-Zurawska, Magdalena Palinska-Saadi, Adriana Mazur, André Béchet, Daniel Maier, Jeanette A. Nutrients Article Chronic Mg(2+) deficiency is the underlying cause of a broad range of health dysfunctions. As 25% of body Mg(2+) is located in the skeletal muscle, Mg(2+) transport and homeostasis systems (MgTHs) in the muscle are critical for whole-body Mg(2+) homeostasis. In the present study, we assessed whether Mg(2+) deficiency alters muscle fiber characteristics and major pathways regulating muscle physiology. C57BL/6J mice received either a control, mildly, or severely Mg(2+)-deficient diet (0.1%; 0.01%; and 0.003% Mg(2+) wt/wt, respectively) for 14 days. Mg(2+) deficiency slightly decreased body weight gain and muscle Mg(2+) concentrations but was not associated with detectable variations in gastrocnemius muscle weight, fiber morphometry, and capillarization. Nonetheless, muscles exhibited decreased expression of several MgTHs (MagT1, CNNM2, CNNM4, and TRPM6). Moreover, TaqMan low-density array (TLDA) analyses further revealed that, before the emergence of major muscle dysfunctions, even a mild Mg(2+) deficiency was sufficient to alter the expression of genes critical for muscle physiology, including energy metabolism, muscle regeneration, proteostasis, mitochondrial dynamics, and excitation–contraction coupling. MDPI 2021-06-24 /pmc/articles/PMC8308210/ /pubmed/34202561 http://dx.doi.org/10.3390/nu13072169 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bayle, Dominique
Coudy-Gandilhon, Cécile
Gueugneau, Marine
Castiglioni, Sara
Zocchi, Monica
Maj-Zurawska, Magdalena
Palinska-Saadi, Adriana
Mazur, André
Béchet, Daniel
Maier, Jeanette A.
Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice
title Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice
title_full Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice
title_fullStr Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice
title_full_unstemmed Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice
title_short Magnesium Deficiency Alters Expression of Genes Critical for Muscle Magnesium Homeostasis and Physiology in Mice
title_sort magnesium deficiency alters expression of genes critical for muscle magnesium homeostasis and physiology in mice
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8308210/
https://www.ncbi.nlm.nih.gov/pubmed/34202561
http://dx.doi.org/10.3390/nu13072169
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