The role of androgens and global and tissue-specific androgen receptor expression on body composition, exercise adaptation, and performance

The role of androgens and global and tissue-specific androgen receptor expression on body composition, exercise adaptation, and performance

Abstract Gonadal testosterone stimulates skeletal muscle anabolism and contributes to sexually differentiated adipose distribution through incompletely understood mechanisms. Observations in humans and animal models have indicated a major role for androgen receptor (AR) in mediating sex differences...

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Bibliographic Details
Main Authors: Sabrina Tzivia Barsky, Douglas Ashley Monks
Format: Article
Language:English
Published: BMC 2025-04-01
Series:Biology of Sex Differences
Subjects:
Testosterone
Androgen receptor
Body composition
Skeletal muscle
Adipose
Bone
Online Access:https://doi.org/10.1186/s13293-025-00707-6
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Summary:Abstract Gonadal testosterone stimulates skeletal muscle anabolism and contributes to sexually differentiated adipose distribution through incompletely understood mechanisms. Observations in humans and animal models have indicated a major role for androgen receptor (AR) in mediating sex differences in body composition throughout the lifespan. Traditional surgical, genetic and pharmacological studies have tested systemic actions of circulating androgens, and more recent transgenic approaches have allowed for tests of AR gene function in specific androgen responsive niches contributing to body composition, including: skeletal muscle and surrounding interstitial cells, white and brown adipose, as well as trabecular and cortical bone. Less well understood is how these functions of gonadal androgens interact with exercise. Here, we summarize the understood mechanisms of action of AR and its interactions with exercise, specifically on outcomes of body composition and muscle function, and the global- and tissue-specific role of AR in regulating skeletal muscle, adipose, and bone morphology. Additionally, we describe the known effects of androgen and AR manipulation on female body composition, muscle morphology, and sport performance, while highlighting a need for greater inclusion of female subjects in human and animal muscle physiology and endocrinology research.
ISSN:2042-6410

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