Literature DB >> 33732705

Excess Glucose Impedes the Proliferation of Skeletal Muscle Satellite Cells Under Adherent Culture Conditions.

Yasuro Furuichi1, Yuki Kawabata1, Miho Aoki1, Yoshitaka Mita1, Nobuharu L Fujii1, Yasuko Manabe1.   

Abstract

Glucose is a major energy source consumed by proliferating mammalian cells. Therefore, in general, proliferating cells have the preference of high glucose contents in extracellular environment. Here, we showed that high glucose concentrations impede the proliferation of satellite cells, which are muscle-specific stem cells, under adherent culture conditions. We found that the proliferation activity of satellite cells was higher in glucose-free DMEM growth medium (low-glucose medium with a glucose concentration of 2 mM) than in standard glucose DMEM (high-glucose medium with a glucose concentration of 19 mM). Satellite cells cultured in the high-glucose medium showed a decreased population of reserve cells, identified by staining for Pax7 expression, suggesting that glucose concentration affects cell fate determination. In conclusion, glucose is a factor that decides the cell fate of skeletal muscle-specific stem cells. Due to this unique feature of satellite cells, hyperglycemia may negatively affect the regenerative capability of skeletal muscle myofibers and thus facilitate sarcopenia.
Copyright © 2021 Furuichi, Kawabata, Aoki, Mita, Fujii and Manabe.

Entities:  

Keywords:  glucose; primary culture; proliferation; satellite cell; self-renewal

Year:  2021        PMID: 33732705      PMCID: PMC7957019          DOI: 10.3389/fcell.2021.640399

Source DB:  PubMed          Journal:  Front Cell Dev Biol        ISSN: 2296-634X


  39 in total

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Review 3.  Models of accelerated sarcopenia: critical pieces for solving the puzzle of age-related muscle atrophy.

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4.  Hyperglycemia induces skeletal muscle atrophy via a WWP1/KLF15 axis.

Authors:  Yu Hirata; Kazuhiro Nomura; Yoko Senga; Yuko Okada; Kenta Kobayashi; Shiki Okamoto; Yasuhiko Minokoshi; Michihiro Imamura; Shin'ichi Takeda; Tetsuya Hosooka; Wataru Ogawa
Journal:  JCI Insight       Date:  2019-02-21

5.  Pax-7 up-regulation inhibits myogenesis and cell cycle progression in satellite cells: a potential mechanism for self-renewal.

Authors:  Hugo C Olguin; Bradley B Olwin
Journal:  Dev Biol       Date:  2004-11-15       Impact factor: 3.582

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Authors:  Marine Theret; Linda Gsaier; Bethany Schaffer; Gaëtan Juban; Sabrina Ben Larbi; Michèle Weiss-Gayet; Laurent Bultot; Caterina Collodet; Marc Foretz; Dominique Desplanches; Pascual Sanz; Zizhao Zang; Lin Yang; Guillaume Vial; Benoit Viollet; Kei Sakamoto; Anne Brunet; Bénédicte Chazaud; Rémi Mounier
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Journal:  Kidney Int       Date:  1992-09       Impact factor: 10.612

8.  Isolation and culture of individual myofibers and their satellite cells from adult skeletal muscle.

Authors:  Alessandra Pasut; Andrew E Jones; Michael A Rudnicki
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9.  Muscle stem cells contribute to myofibres in sedentary adult mice.

Authors:  Alexandra C Keefe; Jennifer A Lawson; Steven D Flygare; Zachary D Fox; Mary P Colasanto; Sam J Mathew; Mark Yandell; Gabrielle Kardon
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2.  Myoblast deactivation within engineered human skeletal muscle creates a transcriptionally heterogeneous population of quiescent satellite-like cells.

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4.  Preparation of Spheroids from Primary Pig Cells in a Mid-Scale Bioreactor Retaining Their Myogenic Potential.

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5.  R-spondin3 is a myokine that differentiates myoblasts to type I fibres.

Authors:  Yoshitaka Mita; Haonan Zhu; Yasuro Furuichi; Hiroki Hamaguchi; Yasuko Manabe; Nobuharu L Fujii
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6.  Establishment of a system evaluating the contractile force of electrically stimulated myotubes from wrinkles formed on elastic substrate.

Authors:  Hiroki Hamaguchi; Tsubasa S Matsui; Shinji Deguchi; Yasuro Furuichi; Nobuharu L Fujii; Yasuko Manabe
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7.  Morphological and Molecular Responses of Lateolabrax maculatus Skeletal Muscle Cells to Different Temperatures.

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Review 8.  Maintenance of Skeletal Muscle to Counteract Sarcopenia in Patients with Advanced Chronic Kidney Disease and Especially Those Undergoing Hemodialysis.

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Journal:  Nutrients       Date:  2021-05-02       Impact factor: 5.717
  8 in total

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