Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle

Skeletal muscle is the major site for glucose disposal, the impairment of which closely associates with the glucose intolerance in diabetic patients. Diabetes-related ankyrin repeat protein (DARP/Ankrd23) is a member of muscle ankyrin repeat proteins, whose expression is enhanced in the skeletal mus...

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Autores principales: Shimoda, Yoshiaki, Matsuo, Kiyonari, Kitamura, Youhei, Ono, Kazunori, Ueyama, Tomomi, Matoba, Satoaki, Yamada, Hiroyuki, Wu, Tongbin, Chen, Ju, Emoto, Noriaki, Ikeda, Koji
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4580461/
https://www.ncbi.nlm.nih.gov/pubmed/26398569
http://dx.doi.org/10.1371/journal.pone.0138624
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author Shimoda, Yoshiaki
Matsuo, Kiyonari
Kitamura, Youhei
Ono, Kazunori
Ueyama, Tomomi
Matoba, Satoaki
Yamada, Hiroyuki
Wu, Tongbin
Chen, Ju
Emoto, Noriaki
Ikeda, Koji
author_facet Shimoda, Yoshiaki
Matsuo, Kiyonari
Kitamura, Youhei
Ono, Kazunori
Ueyama, Tomomi
Matoba, Satoaki
Yamada, Hiroyuki
Wu, Tongbin
Chen, Ju
Emoto, Noriaki
Ikeda, Koji
author_sort Shimoda, Yoshiaki
collection PubMed
description Skeletal muscle is the major site for glucose disposal, the impairment of which closely associates with the glucose intolerance in diabetic patients. Diabetes-related ankyrin repeat protein (DARP/Ankrd23) is a member of muscle ankyrin repeat proteins, whose expression is enhanced in the skeletal muscle under diabetic conditions; however, its role in energy metabolism remains poorly understood. Here we report a novel role of DARP in the regulation of glucose homeostasis through modulating AMP-activated protein kinase (AMPK) activity. DARP is highly preferentially expressed in skeletal muscle, and its expression was substantially upregulated during myotube differentiation of C2C12 myoblasts. Interestingly, DARP-/- mice demonstrated better glucose tolerance despite similar body weight, while their insulin sensitivity did not differ from that in wildtype mice. We found that phosphorylation of AMPK, which mediates insulin-independent glucose uptake, in skeletal muscle was significantly enhanced in DARP-/- mice compared to that in wildtype mice. Gene silencing of DARP in C2C12 myotubes enhanced AMPK phosphorylation, whereas overexpression of DARP in C2C12 myoblasts reduced it. Moreover, DARP-silencing increased glucose uptake and oxidation in myotubes, which was abrogated by the treatment with AICAR, an AMPK activator. Of note, improved glucose tolerance in DARP-/- mice was abolished when mice were treated with AICAR. Mechanistically, gene silencing of DARP enhanced protein expression of LKB1 that is a major upstream kinase for AMPK in myotubes in vitro and the skeletal muscle in vivo. Together with the altered expression under diabetic conditions, our data strongly suggest that DARP plays an important role in the regulation of glucose homeostasis under physiological and pathological conditions, and thus DARP is a new therapeutic target for the treatment of diabetes mellitus.
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spelling pubmed-45804612015-10-01 Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle Shimoda, Yoshiaki Matsuo, Kiyonari Kitamura, Youhei Ono, Kazunori Ueyama, Tomomi Matoba, Satoaki Yamada, Hiroyuki Wu, Tongbin Chen, Ju Emoto, Noriaki Ikeda, Koji PLoS One Research Article Skeletal muscle is the major site for glucose disposal, the impairment of which closely associates with the glucose intolerance in diabetic patients. Diabetes-related ankyrin repeat protein (DARP/Ankrd23) is a member of muscle ankyrin repeat proteins, whose expression is enhanced in the skeletal muscle under diabetic conditions; however, its role in energy metabolism remains poorly understood. Here we report a novel role of DARP in the regulation of glucose homeostasis through modulating AMP-activated protein kinase (AMPK) activity. DARP is highly preferentially expressed in skeletal muscle, and its expression was substantially upregulated during myotube differentiation of C2C12 myoblasts. Interestingly, DARP-/- mice demonstrated better glucose tolerance despite similar body weight, while their insulin sensitivity did not differ from that in wildtype mice. We found that phosphorylation of AMPK, which mediates insulin-independent glucose uptake, in skeletal muscle was significantly enhanced in DARP-/- mice compared to that in wildtype mice. Gene silencing of DARP in C2C12 myotubes enhanced AMPK phosphorylation, whereas overexpression of DARP in C2C12 myoblasts reduced it. Moreover, DARP-silencing increased glucose uptake and oxidation in myotubes, which was abrogated by the treatment with AICAR, an AMPK activator. Of note, improved glucose tolerance in DARP-/- mice was abolished when mice were treated with AICAR. Mechanistically, gene silencing of DARP enhanced protein expression of LKB1 that is a major upstream kinase for AMPK in myotubes in vitro and the skeletal muscle in vivo. Together with the altered expression under diabetic conditions, our data strongly suggest that DARP plays an important role in the regulation of glucose homeostasis under physiological and pathological conditions, and thus DARP is a new therapeutic target for the treatment of diabetes mellitus. Public Library of Science 2015-09-23 /pmc/articles/PMC4580461/ /pubmed/26398569 http://dx.doi.org/10.1371/journal.pone.0138624 Text en © 2015 Shimoda 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
Shimoda, Yoshiaki
Matsuo, Kiyonari
Kitamura, Youhei
Ono, Kazunori
Ueyama, Tomomi
Matoba, Satoaki
Yamada, Hiroyuki
Wu, Tongbin
Chen, Ju
Emoto, Noriaki
Ikeda, Koji
Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle
title Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle
title_full Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle
title_fullStr Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle
title_full_unstemmed Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle
title_short Diabetes-Related Ankyrin Repeat Protein (DARP/Ankrd23) Modifies Glucose Homeostasis by Modulating AMPK Activity in Skeletal Muscle
title_sort diabetes-related ankyrin repeat protein (darp/ankrd23) modifies glucose homeostasis by modulating ampk activity in skeletal muscle
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4580461/
https://www.ncbi.nlm.nih.gov/pubmed/26398569
http://dx.doi.org/10.1371/journal.pone.0138624
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