Abstract
Aging commonly causes decline of testosterone or estrogen, leading to overaccumulation of fatness in men and women, respectively. Although such a phenomenon can be readily explained by estrogen’s direct action on adipocytes in women, accumulative evidence does not support the direct action of testosterone in adipocyte lipid metabolism, suggesting there is a missing intermediary link. Herein, we propose that glycoprotein hormone β5 (GPHB5) is the intermediary linkage between testosterone and the regulation of adiposity. In clinical samples, blood levels of GPHB5 were correlated negatively with men’s ages and positively with circulating testosterone. Testosterone directly stimulated the expression of GPHB5 in cultured cells; pharmacological blockade of androgen receptor (AR) functions abrogated this effect. Knockout of AR led not only to development of obesity but also reduction of GPHB5 expression. Genetic ablation of GPHB5 in men, but not women, reduced the browning of white adipose tissue, diminished energy expenditure, and caused severe obesity. Importantly, elevated blood testosterone levels did not exert catabolic actions in GPHB5–/– mice; yet, recombinant GPHB5 protein could stimulate energy expenditure and reduce adiposity. These results provide strong proof that GPHB5 is the “missing” intermediary hormone linking testosterone (and aging) and its well-known catabolic effect on adipose tissue.
Authors
Gengmiao Xiao, Aijun Qian, Zhuo Gao, Tingting Dai, Hui Liang, Shuai Wang, Mulan Deng, Yunjing Yan, Xindan Zhang, Xuedi Zhang, Yunping Mu, Jiqiu Wang, Aibo Gao, Huijie Zhang, Fanghong Li, Allan Zijian Zhao
Figure 1
Serum GPHB5 levels in men and women during aging.
Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)