Author
Listed:
- Lidan Zhang
(Chongqing Medical University, Center for Medical Epigenetics, School of Basic Medical Sciences
The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Takayuki Kaji
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Ayasa Nakamura
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Nagomu Maesawa
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Kanako Iwamori
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Jiayao Xu
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Yilin Liu
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Akiyoshi Uezumi
(Kyushu University, Division of Cell Heterogeneity, Medical Research Center for High Depth Omics, Medical Institute of Bioregulation)
- Daisuke Kamimura
(Hokkaido University, Division of Molecular Psychoimmunology, Institute for Genetic Medicine, and Graduate School of Medicine)
- Masaaki Murakami
(Hokkaido University, Division of Molecular Psychoimmunology, Institute for Genetic Medicine, and Graduate School of Medicine
National Institute for Quantum and Radiological Science and Technology, Group of Quantum Immunology, Institute for Quantum Life Sciences
National Institute for Physiological Sciences, Division of Molecular Neuroimmunology
Hokkaido University, Institute for Vaccine Research and Development)
- Atsushi Kubo
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
- Takashi Yamada
(Hiroshima University, Graduate School of Biomedical and Health Sciences)
- Takayuki Akimoto
(Waseda University, Faculty of Sport Sciences)
- So-ichiro Fukada
(The University of Osaka, Laboratory of Stem Cell Regeneration and Adaptation, Graduate School of Pharmaceutical Sciences)
Abstract
Quiescent muscle stem cells (MuSCs) respond to exercise; however, the coordinated regulation of increased loading, exerkines, and quiescence signaling remains unclear. We found that increased loading reduces calcitonin receptor (CalcR) expression, and forced activation of protein kinase A (PKA), a downstream of CalcR signaling, suppresses MuSC proliferation. Although MuSC-specific Calcr knockout (C-cKO) alone is insufficient, exercised C-cKO mice exhibit significant MuSC proliferation independent of increased loading. Reinforcement of CalcR signaling, either through PKA induction or Yap1 depletion, suppresses MuSC proliferation. Load-independent MuSC proliferation is also suppressed by the deletion of gp130 in C-cKO mice. Serum from exercised mice recapitulates MuSC proliferation in all analyzed muscles of sedentary C-cKO mice, which is abrogated by anti-IL-6 antibodies, and we find cross-talk between CalcR and gp130 signaling via Yap1 phosphorylation. Together, our findings reveal an integrated mechanism by which increased loading, exerkine-gp130, and CalcR signaling converge to fine-tune MuSC activity during exercise.
Suggested Citation
Lidan Zhang & Takayuki Kaji & Ayasa Nakamura & Nagomu Maesawa & Kanako Iwamori & Jiayao Xu & Yilin Liu & Akiyoshi Uezumi & Daisuke Kamimura & Masaaki Murakami & Atsushi Kubo & Takashi Yamada & Takayuk, 2025.
"Calcitonin receptor downregulation and exercise-conditioned blood enable systemic muscle stem cell proliferation,"
Nature Communications, Nature, vol. 16(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65684-1
DOI: 10.1038/s41467-025-65684-1
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