Abstract
Emerging research in human studies suggests an association among vitamin B6, sarcopenia, and muscle strength. However, very little is known regarding its potential role at the cellular level, especially in muscle satellite cells. Therefore, to determine whether vitamin B6 affects the satellite cells, we isolated single myofibers from muscles of vitamin B6-deficient and vitamin B6-supplemented mice. Subsequently, we subjected them to single myofiber culture and observed the number and function of the satellite cells, which remained in their niche on the myofibers. Prior to culture, the vitamin B6-deficient myofibers exhibited a significantly lower number of quiescent satellite cells, as compared to that in the vitamin B6-supplemented myofibers, thereby suggesting that vitamin B6 deficiency induces a decline in the quiescent satellite cell pool in mouse muscles. After 48 and 72 h of culture, the number of proliferating satellite cells per cluster was similar between the vitamin B6-deficient and -supplemented myofibers, but their numbers decreased significantly after culturing the myofibers in vitamin B6-free medium. After 72 h of culture, the number of self-renewing satellite cells per cluster was significantly lower in the vitamin B6-deficient myofibers, and the vitamin B6-free medium further decreased this number. In conclusion, vitamin B6 deficiency appears to reduce the number of quiescent satellite cells and suppress the proliferation and self-renewal of satellite cells during myogenesis.
Highlights
Sarcopenia is a progressive muscle disease that is characterized by a decline in the skeletal muscle mass as well as function with advancing age
Human studies in both European countries and Japan have demonstrated that low intake as well as low levels of vitamin B6 coexist with sarcopenia [7,8,9,10,11]
Since vitamin B6 is predominantly stored in muscles, and it plays an important role in amino acid metabolism, we investigated the impact of vitamin B6 deficiency on amino acid composition in the skeletal muscles
Summary
Sarcopenia is a progressive muscle disease that is characterized by a decline in the skeletal muscle mass as well as function (strength and physical performance) with advancing age. Predominant changes that occur at the cellular level of sarcopenia-affected muscles include a decrease in the size as well as number of myofibers and a reduction in the number and function of satellite cells. These satellite cells are muscle stem cells that play an important role in muscle regeneration, which is essential in maintaining muscle mass during aging [1,2]. Human studies in both European countries and Japan have demonstrated that low intake as well as low levels of vitamin B6 coexist with sarcopenia [7,8,9,10,11]. These reports provide crucial evidence for the association of vitamin B6 with sarcopenia, the evidence has largely been obtained from observational studies
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