Estradiol deficiency as a consequence of aging contributes to the depletion of the satellite cell pool in female mice.

The effects of aging on the satellite cell pool have primarily been studied in male mice, where the role of cell-intrinsic versus environmental changes on satellite cell function remains contentious. Estradiol is necessary for maintenance of satellite cell pool size in adult female mice-here we investigate the hypothesis that in females, estradiol is a major environmental driver of age-associated effects on satellite cells. In 24-26 month-old ovarian senescent mice, we find the satellite cell pool size is severely diminished in certain muscles (TA and EDL) but only marginally affected in others (soleus and gastrocnemius). Supplementation with 17-beta estradiol significantly increases satellite cell pool size in the TA and EDL. To assess cell-intrinsic versus environmental regulation, we perform two transplantation experiments, Adult or Aged satellite cells transplanted into Adult recipients, and Adult satellite cells transplanted into Adult or Aged mice. These results demonstrate that the aged environment dominates over cell-autonomous age in terms of the specification of satellite cell pool size. Transcriptional profiling on satellite cells from Adult, Aged and ovariectomized mice revealed commonalities across the two estradiol-deficient conditions, Aged and ovariectomized, in GO terms from differentially expressed genes. Our findings support the hypothesis that the lack of estradiol contributes to reductions in satellite cell number in Aged female muscle, yet cells that remain are functional in terms of proliferative potential and self-renewal capacity. These findings have implications for sex hormone treatment of menopausal women and highlight the vital role of estradiol in the maintenance of the satellite cell pool.