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Myonuclear and satellite cell content of the vastus lateralis and soleus with70 days of simulated microgravity and the NASA SPRINT exercise program
We previously observed a range of whole muscle and individual slow and fast myofiber size responses (mean: +4 to -24%) in quadriceps (vastus lateralis) and triceps surae (soleus) muscles of individuals undergoing 70 days of simulated microgravity with or without the NASA SPRINT exercise countermeasu...
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Published in: | Journal of applied physiology (1985) 2024-12 |
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Main Authors: | , , , , , , , , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | We previously observed a range of whole muscle and individual slow and fast myofiber size responses (mean: +4 to -24%) in quadriceps (vastus lateralis) and triceps surae (soleus) muscles of individuals undergoing 70 days of simulated microgravity with or without the NASA SPRINT exercise countermeasures program. The purpose of the current investigation was to further explore, in these same individuals, the content of myonuclei and satellite cells, both of which are key regulators of skeletal muscle mass. Individuals completed 6° head-down-tilt bedrest (BR, n=9), bedrest with resistance and aerobic exercise (BRE, n=9), or bedrest with resistance and aerobic exercise and low-dose testosterone (BRE+T, n=8). The number of myonuclei and satellite cells associated with each slow (myosin heavy chain (MHC) I) and fast (MHC IIa) myofiber in the vastus lateralis was not changed (P>0.05) pre- to post-bedrest within the BR, BRE, or BRE+T groups. Similarly, in the soleus the number of myonuclei associated with each slow and fast myofiber, and the number of satellite cells associated with each slow myofiber were not changed (P>0.05) pre- to post-bedrest within the BR, BRE, or BRE+T groups. It appears that even with relatively large perturbations in muscle mass over a few months of simulated microgravity, or with partially or completely effective exercise countermeasures, human skeletal muscle tightly regulates the abundance of myonuclei and satellite cells. Thus, exercise countermeasures efficacy for skeletal muscle atrophy appears to be independent of myonuclei and satellite cell abundance. |
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ISSN: | 1522-1601 1522-1601 |
DOI: | 10.1152/japplphysiol.00468.2024 |