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Diminished Estradiol Explains Faster Muscle Loss Following Menopause


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Posted 19 July 2019 - 10:22 AM


Both genders lose muscle mass and strength with age, leading to sarcopenia and frailty. Why do women undergo age-related muscle loss more rapidly following menopause, however? Researchers here suggest that the sex hormone estradiol is necessary to support the activity of muscle stem cells, and thus falling levels of estrogen following menopause is the mechanism driving this outcome. Loss of stem cell function in muscle tissue is also the most credible cause for the onset of sarcopenia without considering gender, so this all fits together quite nicely.

Over the course of an individual's life, skeletal muscle undergoes numerous injurious insults that require repairs in order for function to be maintained. The maintenance and injury repair of skeletal muscle is dependent on its resident stem cell (i.e., the satellite cell). With proliferation, satellite cells undergo asymmetric division through which a subpopulation of the daughter satellite cells do not differentiate, but instead return to quiescence, repopulating the satellite cell pool (i.e., self-renewal). The balance of this asymmetric division process is critical and necessary to ensure the life-long preservation of satellite cells in skeletal muscle.

Aging diminishes the satellite cell pool and, as a result, the regenerative capacity of skeletal muscle in aged males is impaired compared to that of younger males, but such age-induced impairments in females is less studied. Similarly, age-associated changes in the satellite cell environment, in combination with cell-intrinsic alterations, disrupt quiescence and the balance of asymmetric division, ultimately impacting satellite cell maintenance and muscle regenerative potential. Such results support the concept that circulatory factors, including hormones that differ between the young and old systemic environments and the activity of their subsequent signaling pathways, contribute to age-associated decrements in satellite cell maintenance and overall muscle regenerative capacity.

A well-known hormone that changes with age is estradiol, the main circulating sex hormone in adult females. Serum estradiol concentration declines dramatically at the average age of 51 in women, corresponding to the time of menopause. Estradiol deficiency reduces skeletal muscle mass and force generation in women and prevents the recovery of strength following contraction-induced muscle injury and traumatic muscle injury in female mice. However, evidence that this regenerative phenotype involves effects of estradiol directly on satellite cells is lacking.

In this study, we use rigorous and unbiased approaches to demonstrate the in vivo necessity of estradiol to maintain the satellite cell number in females. Further, we use mouse genetics to show that the molecular mechanism of estradiol action is cell-autonomous signaling through estrogen receptor α (ERα). Specifically, we show the functional consequence of estradiol-ERα ablated signaling in satellite cells including impaired self-renewal, engraftment, and muscle regeneration, and the activation of satellite cell mitochondrial caspase-dependent apoptosis. Together, these results demonstrate an important role for estrogen in satellite cell maintenance and muscle regeneration in females.

Link: https://doi.org/10.1...rep.2019.06.025


View the full article at FightAging




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