doi: 10.4161/cam.4.4.12291.
A new function for odorant receptors: MOR23 is necessary for normal tissue repair in skeletal muscle
Affiliations
- PMID: 20519965
- PMCID: PMC3011271
- DOI: 10.4161/cam.4.4.12291
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A new function for odorant receptors: MOR23 is necessary for normal tissue repair in skeletal muscle
Cell Adh Migr.
2010 Oct-Dec.
Abstract
Myofibers with an abnormal branching cytoarchitecture are commonly found in various neuromuscular diseases as well as after severe muscle injury. These aberrant myofibers are fragile and muscles containing a high percentage of these myofibers are weaker and more prone to injury. To date the mechanisms and molecules regulating myofiber branching have been obscure. Recent work analyzing the role of mouse odorant receptor 23 (MOR23) in muscle regeneration revealed that MOR23 is necessary for proper skeletal muscle regeneration in mice as loss of MOR23 leads to increased myofiber branching. Further studies demonstrated that MOR23 expression is induced when muscle cells were extensively fusing and plays an important role in controlling cell migration and adhesion. These data demonstrate a novel role for an odorant receptor in tissue repair and identify the first molecule with a functional role in myofiber branching.
Figures
Myofiber growth during normal muscle regeneration. (A) Myofibers contain many myonuclei within a common cytoplasm and are surrounded by a basal lamina sheath. Underneath the basal lamina lie satellite cells, myogenic stem cells responsible for muscle regeneration. (B) Myofiber degeneration leads to activation of quiescent satellite cells and their reentry into the cell cycle. Their progeny myoblasts proliferate to yield a pool of progenitor cells. (C) Myoblasts differentiate and undergo migration, adhesion and fusion to form nascent myofibers within the original basal lamina sheath. Additional myoblasts fuse with these newly formed myofibers and the myofiber will continue to grow in size. (D) At later time points regenerated myofibers are similar in size to undamaged myofibers but contain centrally located myonuclei, a hallmark of a regenerated myofiber.
Myofiber branching during aberrant muscle regeneration. (A) Phase contrast microscopy of a normal (left) and a branched (right) myofiber. The branched myofiber contains one branch at the end of the myofiber. (B) Schematic diagrams of myofibers with more complex patterns of branching than depicted in (A).
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References
-
- Tamaki T, Sekine T, Akatsuka A, Uchiyama S, Nakano S. Three-dimensional cytoarchitecture of complex branched fibers in soleus muscle from mdx mutant mice. Anat Rec. 1993;237:12–14. - PubMed
-
- Ontell M. Morphological aspects of muscle fiber regeneration. Fed Proc. 1986;45:1461–1465. - PubMed
-
- Tamaki T, Sekine T, Akatsuka A, Uchiyama S, Nakano S. Detection of neuromuscular junctions on isolated branched muscle fibers: application of nitric acid fiber digestion method for scanning electron microscopy. J Electron Microsc. 1992;41:76–81. - PubMed
-
- Tamaki T, Akatsuka A, Tokunaga M, Uchiyama S, Shiraishi T. Characteristics of compensatory hypertrophied muscle in the rat: I. Electron microscopic and immunohistochemical studies. Anat Rec. 1996;246:325–334. - PubMed
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