1. Mitochondrial-derived vesicles in skeletal muscle remodeling and adaptation
- Author
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Anna Picca, Flora Guerra, Riccardo Calvani, Roberta Romano, Hélio José Coelho-Junior, Cecilia Bucci, Christiaan Leeuwenburgh, Emanuele Marzetti, Picca, A., Guerra, F., Calvani, R., Romano, R., Coelho-Junior, H. J., Bucci, C., Leeuwenburgh, C., and Marzetti, E.
- Subjects
Mitochondrial quality control ,Mitochondrial biogenesis ,Settore MED/09 - MEDICINA INTERNA ,Mitophagy ,Mitochondrial DNA damage ,Skeletal muscle ,Cell Biology ,Extracellular vesicles ,Extracellular vesicles, Mitochondrial biogenesis, Mitochondrial DNA damage, Mitochondrial quality control, Mitophagy, Skeletal muscle ,Developmental Biology - Abstract
Mitochondrial remodeling is crucial to meet the bioenergetic demand to support muscle contractile activity during daily tasks and muscle regeneration following injury. A set of mitochondrial quality control (MQC) processes, including mitochondrial biogenesis, dynamics, and mitophagy, are in place to maintain a well-functioning mitochondrial network and support muscle regeneration. Alterations in any of these pathways compromises mitochondrial quality and may potentially lead to impaired myogenesis, defective muscle regeneration, and ultimately loss of muscle function. Among MQC processes, mitophagy has gained special attention for its implication in the clearance of dysfunctional mitochondria via crosstalk with the endo-lysosomal system, a major cell degradative route. Along this pathway, additional opportunities for mitochondrial disposal have been identified that may also signal at the systemic level. This communication occurs via inclusion of mitochondrial components within membranous shuttles named mitochondrial-derived vesicles (MDVs). Here, we discuss MDV generation and release as a mitophagy-complementing route for the maintenance of mitochondrial homeostasis in skeletal myocytes. We also illustrate the possible role of muscle-derived MDVs in immune signaling during muscle remodeling and adaptation.
- Published
- 2021