1. Resident muscle stem cells are not required for testosterone-induced skeletal muscle hypertrophy.
- Author
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Englund, Davis A., Peck, Bailey D., Murach, Kevin A., Neal, Ally C., Caldwell, Hannah A., McCarthy, John J., Peterson, Charlotte A., and Dupont-Versteegden, Esther E.
- Subjects
MUSCLE growth ,MUSCLE cells ,STEM cells ,SKELETAL muscle ,SATELLITE cells ,SOLEUS muscle ,CELL fusion - Abstract
It is postulated that testosterone-induced skeletal muscle hypertrophy is driven by myonuclear accretion as the result of satellite cell fusion. To directly test this hypothesis, we utilized the Pax7-DTA mouse model to deplete satellite cells in skeletal muscle followed by testosterone administration. Pax7-DTA mice (6 mo of age) were treated for 5 days with either vehicle [satellite cell replete (SC+)] or tamoxifen [satellite cell depleted (SC-)]. Following a washout period, a testosterone propionate or sham pellet was implanted for 21 days. Testosterone administration caused a significant increase in muscle fiber crosssectional area in SC+ and SC- mice in both oxidative (soleus) and glycolytic (plantaris and extensor digitorum longus) muscles. In SC+ mice treated with testosterone, there was a significant increase in both satellite cell abundance and myonuclei that was completely absent in testosterone-treated SC- mice. These findings provide direct evidence that testosterone-induced muscle fiber hypertrophy does not require an increase in satellite cell abundance or myonuclear accretion. Listen to a podcast about this Rapid Report with senior author E. E. Dupont-Versteegden (https://ajpcell.podbean.com/e/podcast-on-paperthat- shows-testosterone-induced-skeletal-muscle-hypertrophydoes- not-need-muscle-stem-cells/). [ABSTRACT FROM AUTHOR]
- Published
- 2019
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