Myogenic gene expression at rest and after a bout of resistance exercise in young (18–30 yr) and old (80–89 yr) women

Abstract: Raue, Ulrika, Dustin Slivka, Bozena Jemiolo, Chris Hollon, and Scott Trappe. Myogenic gene expression at rest and after a bout of resistance exercise in young (18 -30 yr) and old (80 -89 yr) women. J Appl Physiol 101: 53-59, 2006. First published April 6, 2006 doi:10.1152/japplphysiol.01616.2005.-The purpose of this study was to investigate mRNA expression of several key skeletal muscle myogenic controllers; myogenic differentiation factor (MyoD), muscle regulatory factor 4 (MRF4), myogenic factor 5 (Myf5), m… Show more

“…4) are consistent with the work of others that have shown elevations in myogenic regulatory factor mRNA in the old at rest and that resistance exercise alters the expression of human skeletal muscle mRNAs associated with satellite cell regulation in both young and older subjects (8,28,33,34,45). We also report for the first time in human skeletal muscle, an age-related differential expression pattern post REϩEAA of a novel gene known as mindbomb 2 (mib2; Fig.…”

“…The sequence of satellite cell events involves activation, proliferation, and fusion to existing myofibers (19). Regulation of satellite cell function is controlled by many different factors, including growth factors (i.e., IGF-1, myostatin) and members of the myogenic regulatory family (i.e., myoD, myogenin), all of which are acutely responsive to a single bout of resistance exercise in humans (7,8,34,39,45,57). However, no information is available in humans on the E3 ubiquitin ligase, mindbomb2 (mib2; also known as skeletrophin).…”

Expression of growth-related genes in young and older human skeletal muscle following an acute stimulation of protein synthesis

“…4) are consistent with the work of others that have shown elevations in myogenic regulatory factor mRNA in the old at rest and that resistance exercise alters the expression of human skeletal muscle mRNAs associated with satellite cell regulation in both young and older subjects (8,28,33,34,45). We also report for the first time in human skeletal muscle, an age-related differential expression pattern post REϩEAA of a novel gene known as mindbomb 2 (mib2; Fig.…”

“…The sequence of satellite cell events involves activation, proliferation, and fusion to existing myofibers (19). Regulation of satellite cell function is controlled by many different factors, including growth factors (i.e., IGF-1, myostatin) and members of the myogenic regulatory family (i.e., myoD, myogenin), all of which are acutely responsive to a single bout of resistance exercise in humans (7,8,34,39,45,57). However, no information is available in humans on the E3 ubiquitin ligase, mindbomb2 (mib2; also known as skeletrophin).…”

Expression of growth-related genes in young and older human skeletal muscle following an acute stimulation of protein synthesis

“…One such factor may be myostatin, which has recently been reported to reduce Akt phosphorylation in both cardiomyocytes 31 and in mouse C2C12 cells. 32 Myostatin mRNA, but not protein, levels have been measured and compared previously in older versus younger skeletal muscle, with investigations showing either increases in older subjects 29 or no difference 12 when compared to younger subjects. However, it was deemed relevant to measure the myostatin mRNA and protein levels in the present study and to determine if an association existed with Akt phosphorylation levels.…”

“…Myostatin, a member of the transforming growth factor-␤ family, inhibits muscle development. 27,28 Myostatin mRNA in elderly skeletal muscle has been shown to be either increased 29 or unchanged, 12 when compared to younger skeletal muscle, while myostatin protein levels in elderly muscle have not been reported. Myostatin levels are inhibited by GH in human muscle, 30 suggesting that a perturbation in GH levels, or GH activity, may result in increased myostatin levels.…”

Human Sarcopenia Reveals an Increase in SOCS-3 and Myostatin and a Reduced Efficiency of Akt Phosphorylation

“…As células satélites são células mononucleares, quiescentes e caracterizadas por estarem localizadas entre o sarcolema e a lamina basal apresentando a capacidade de proliferação e diferenciação estando intimamente ligadas ao processo de hipertrofia muscular (MUIR, KANJI e ALLBROOK, 1965;HAWKE e GARRY, 2001;PETRELLA et al, 2008;BELLAMY et al, 2014;BLAAUW e REGGIANI, 2014). Tanto a idade como o nível de treinamento parecem ser capazes de modular as respostas dos genes e das proteínas envolvidas no processo de ativação das células satélites, bem como a quantidade das mesmas que são fundidas às células musculares esqueléticas PETRELLA et al, 2006;RAUE et al, 2006;VERDIJK et al, 2009). De maneira oposta, o fator miogênico 6 (myf 6) apresentou aumentos na sua quantidade total, porém sem aumento de expressão gênica.…”

Efeitos do treinamento de força de baixa intensidade associado à restrição parcial do fluxo sanguíneo na força, hipertrofia e modulação das células satélites musculares em idosos