Adapting cytoskeleton-mitochondria patterning with myocyte differentiation by promyogenic PRR33

Coordinated cytoskeleton-mitochondria organization during myogenesis is crucial for muscle development and function. Our understanding of the underlying regulatory mechanisms remains inadequate. Here, we identified a novel muscle-enriched protein, PRR33, which is upregulated during myogenesis and ac...

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Published in:Cell death and differentiation 2025, Vol.32 (1), p.177-193
Main Authors: Fu, Xuyang, Zhang, Feng, Dong, Xiaoxuan, Pu, Linbin, Feng, Yan, Xu, Yang, Gao, Feng, Liang, Tian, Kang, Jianmeng, Sun, Hongke, Hong, Tingting, Liu, Yunxia, Zhou, Hongmei, Jiang, Jun, Yin, Deling, Hu, Xinyang, Wang, Da-Zhi, Ding, Jian, Chen, Jinghai
Format: Article
Language:English
Subjects:
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Animals
Apoptosis
Biochemistry
Biomedical and Life Sciences
Cell Biology
Cell Cycle Analysis
Cell Differentiation
Cell Line
Cytoskeleton
Cytoskeleton - metabolism
Desmin
Desmin - genetics
Desmin - metabolism
Filaments
Life Sciences
Mice
Mitochondria
Mitochondria - metabolism
Muscle Cells - cytology
Muscle Cells - metabolism
Muscle Development
Muscle strength
Myoblasts
Myoblasts - cytology
Myoblasts - metabolism
Myocytes
Myogenesis
Pattern formation
Stem Cells
Transcriptomes
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Summary:Coordinated cytoskeleton-mitochondria organization during myogenesis is crucial for muscle development and function. Our understanding of the underlying regulatory mechanisms remains inadequate. Here, we identified a novel muscle-enriched protein, PRR33, which is upregulated during myogenesis and acts as a promyogenic factor. Depletion of Prr33 in C2C12 represses myoblast differentiation. Genetic deletion of Prr33 in mice reduces myofiber size and decreases muscle strength. The Prr33 mutant mice also exhibit impaired myogenesis and defects in muscle regeneration in response to injury. Interactome and transcriptome analyses reveal that PRR33 regulates cytoskeleton and mitochondrial function. Remarkably, PRR33 interacts with DESMIN, a key regulator of cytoskeleton-mitochondria organization in muscle cells. Abrogation of PRR33 in myocytes substantially abolishes the interaction of DESMIN filaments with mitochondria, leading to abnormal intracellular accumulation of DESMIN and mitochondrial disorganization/dysfunction in myofibers. Together, our findings demonstrate that PRR33 and DESMIN constitute an important regulatory module coordinating mitochondrial organization with muscle differentiation.
ISSN:1350-9047
1476-5403
1476-5403
DOI:10.1038/s41418-024-01363-w