Blockade of glucagon increases muscle mass and alters fiber type composition in mice deficient in proglucagon‐derived peptides

Shinji Ueno; Yusuke Seino; Shihomi Hidaka; Masashi Nakatani; Keisuke Hitachi; Naoya Murao; Yasuhiro Maeda; Haruki Fujisawa; Megumi Shibata; Takeshi Takayanagi; Katsumi Iizuka; Daisuke Yabe; Yoshihisa Sugimura; Kunihiro Tsuchida; Yoshitaka Hayashi; Atsushi Suzuki

doi:10.1111/jdi.14032

Journal of Diabetes Investigation (Sep 2023)

Blockade of glucagon increases muscle mass and alters fiber type composition in mice deficient in proglucagon‐derived peptides

Shinji Ueno,
Yusuke Seino,
Shihomi Hidaka,
Masashi Nakatani,
Keisuke Hitachi,
Naoya Murao,
Yasuhiro Maeda,
Haruki Fujisawa,
Megumi Shibata,
Takeshi Takayanagi,
Katsumi Iizuka,
Daisuke Yabe,
Yoshihisa Sugimura,
Kunihiro Tsuchida,
Yoshitaka Hayashi,
Atsushi Suzuki

Affiliations

Shinji Ueno: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Yusuke Seino: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Shihomi Hidaka: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Masashi Nakatani: Faculty of Rehabilitation Seijoh University Tokai Aichi Japan
Keisuke Hitachi: Institute for Comprehensive Medical Science Fujita Health University Toyoake Aichi Japan
Naoya Murao: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Yasuhiro Maeda: Open Facility Center Fujita Health University Toyoake Aichi Japan
Haruki Fujisawa: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Megumi Shibata: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Takeshi Takayanagi: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Katsumi Iizuka: Department of Clinical Nutrition Fujita Health University Toyoake Aichi Japan
Daisuke Yabe: Yutaka Seino Distinguished Center for Diabetes Research Kansai Electric Power Medical Research Institute Kyoto Kyoto Japan
Yoshihisa Sugimura: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan
Kunihiro Tsuchida: Institute for Comprehensive Medical Science Fujita Health University Toyoake Aichi Japan
Yoshitaka Hayashi: Department of Endocrinology, Research Institute of Environmental Medicine Nagoya University Nagoya Aichi Japan
Atsushi Suzuki: Departments of Endocrinology, Diabetes and Metabolism Fujita Health University School of Medicine Toyoake Aichi Japan

DOI: https://doi.org/10.1111/jdi.14032
Journal volume & issue: Vol. 14, no. 9
pp. 1045 – 1055

Abstract

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ABSTRACT Aims/Introduction Glucagon is secreted from pancreatic α‐cells and plays an important role in amino acid metabolism in liver. Various animal models deficient in glucagon action show hyper‐amino acidemia and α‐cell hyperplasia, indicating that glucagon contributes to feedback regulation between the liver and the α‐cells. In addition, both insulin and various amino acids, including branched‐chain amino acids and alanine, participate in protein synthesis in skeletal muscle. However, the effect of hyperaminoacidemia on skeletal muscle has not been investigated. In the present study, we examined the effect of blockade of glucagon action on skeletal muscle using mice deficient in proglucagon‐derived peptides (GCGKO mice). Materials and Methods Muscles isolated from GCGKO and control mice were analyzed for their morphology, gene expression and metabolites. Results GCGKO mice showed muscle fiber hypertrophy, and a decreased ratio of type IIA and an increased ratio of type IIB fibers in the tibialis anterior. The expression levels of myosin heavy chain (Myh) 7, 2, 1 and myoglobin messenger ribonucleic acid were significantly lower in GCGKO mice than those in control mice in the tibialis anterior. GCGKO mice showed a significantly higher concentration of arginine, asparagine, serine and threonine in the quadriceps femoris muscles, and also alanine, aspartic acid, cysteine, glutamine, glycine and lysine, as well as four amino acids in gastrocnemius muscles. Conclusions These results show that hyperaminoacidemia induced by blockade of glucagon action in mice increases skeletal muscle weight and stimulates slow‐to‐fast transition in type II fibers of skeletal muscle, mimicking the phenotype of a high‐protein diet.

Published in Journal of Diabetes Investigation

ISSN: 2040-1116 (Print); 2040-1124 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Diseases of the endocrine glands. Clinical endocrinology
Website: http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)2040-1124

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