Development and Regeneration of Muscle, Tendon, and Myotendinous Junctions in Striated Skeletal Muscle

Owing to a rapid increase in aging population in recent years, the deterioration of motor function in older adults has become an important social problem, and several studies have aimed to investigate the mechanisms underlying muscle function decline. Furthermore, structural maintenance of the muscl...

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Veröffentlicht in:	International journal of molecular sciences 2022-03, Vol.23 (6), p.3006
Hauptverfasser:	Yamamoto, Masahito, Sakiyama, Koji, Kitamura, Kei, Yamamoto, Yutaro, Takagi, Takahiro, Sekiya, Sayo, Watanabe, Genji, Taniguchi, Shuichiro, Ogawa, Yudai, Ishizuka, Satoshi, Sugiyama, Yuki, Takayama, Takeshi, Hayashi, Katsuhiko, Chang, Wei-Jen, Abe, Shinichi
Format:	Artikel
Sprache:	eng
Schlagworte:	Aging Cell-Matrix Junctions Connective tissue DNA-binding protein Fibroblasts High mobility group proteins Mesenchyme Muscle Development - physiology Muscle, Skeletal - metabolism Muscles Musculoskeletal system Myoblasts Proteins Regeneration Review Skeletal muscle Stem cells Syncytia Tendons - metabolism
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creator	Yamamoto, Masahito Sakiyama, Koji Kitamura, Kei Yamamoto, Yutaro Takagi, Takahiro Sekiya, Sayo Watanabe, Genji Taniguchi, Shuichiro Ogawa, Yudai Ishizuka, Satoshi Sugiyama, Yuki Takayama, Takeshi Hayashi, Katsuhiko Chang, Wei-Jen Abe, Shinichi
description	Owing to a rapid increase in aging population in recent years, the deterioration of motor function in older adults has become an important social problem, and several studies have aimed to investigate the mechanisms underlying muscle function decline. Furthermore, structural maintenance of the muscle-tendon-bone complexes in the muscle attachment sites is important for motor function, particularly for joints; however, the development and regeneration of these complexes have not been studied thoroughly and require further elucidation. Recent studies have provided insights into the roles of mesenchymal progenitors in the development and regeneration of muscles and myotendinous junctions. In particular, studies on muscles and myotendinous junctions have-through the use of the recently developed scRNA-seq-reported the presence of syncytia, thereby suggesting that fibroblasts may be transformed into myoblasts in a BMP-dependent manner. In addition, the high mobility group box 1-a DNA-binding protein found in nuclei-is reportedly involved in muscle regeneration. Furthermore, studies have identified several factors required for the formation of locomotor apparatuses, e.g., tenomodulin (Tnmd) and mohawk (Mkx), which are essential for tendon maturation.
doi_str_mv	10.3390/ijms23063006
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subjects	Aging Cell-Matrix Junctions Connective tissue DNA-binding protein Fibroblasts High mobility group proteins Mesenchyme Muscle Development - physiology Muscle, Skeletal - metabolism Muscles Musculoskeletal system Myoblasts Proteins Regeneration Review Skeletal muscle Stem cells Syncytia Tendons - metabolism
title	Development and Regeneration of Muscle, Tendon, and Myotendinous Junctions in Striated Skeletal Muscle
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