Characterization of Optimal Strain, Frequency and Duration of Mechanical Loading on Skeletal Myotubes' Biological Responses

BACKGROUND/AIMMechanical loading of differentiated myoblasts in vitro may mimic loading patterns of skeletal muscle in vivo. However, it is still uncharacterized the loading conditions that can produce the most effective muscle cells' biological responses, in vitro. This study investigated the...

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Veröffentlicht in:In vivo (Athens) 2020-07, Vol.34 (4), p.1779-1788
Hauptverfasser: MOUSTOGIANNIS, ATHANASIOS, PHILIPPOU, ANASTASSIOS, ZEVOLIS, EVANGELOS, TASO, ORJONA, CHATZIGEORGIOU, ANTONIOS, KOUTSILIERIS, MICHAEL
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Sprache:eng
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Zusammenfassung:BACKGROUND/AIMMechanical loading of differentiated myoblasts in vitro may mimic loading patterns of skeletal muscle in vivo. However, it is still uncharacterized the loading conditions that can produce the most effective muscle cells' biological responses, in vitro. This study investigated the effects of different loading protocols on the expression of myogenic regulatory factors, anabolic, atrophy and pro-apoptotic factors in skeletal myotubes. MATERIALS AND METHODSC2C12 myoblasts were differentiated and underwent various stretching protocols by altering their elongation, frequency and duration, utilizing an in vitro cell tension system. The loading-induced expression changes of MyoD, Myogenin, MRF4, IGF-1 isoforms, Murf1, Atrogin, Myostatin, Foxo and Fuca were measured by Real Time-PCR. RESULTSStretching by 2% elongation at 0.25 Hz for 12 h was overall the most effective in inducing beneficial responses. CONCLUSIONA low strain, low frequency intermediate duration stretching can most effectively up-regulate myogenic/anabolic factors and down-regulate pro-apoptotic and atrophy genes in myotubes.
ISSN:0258-851X
1791-7549
DOI:10.21873/invivo.11972