Circadian Disruption Induces Testosterone Decline and Male Reproductive Impairment: Evidence from Epidemiological Studies and Animal Experiments
Chen, J.; Xu, Y.; Zhao, M.; Liao, J.; Liu, Y.; Zhuo, Y.; Cai, H.; Cao, Y.; Shen, H.; Jiang, Y.; Li, J.
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This study aims to elucidate the association of circadian rhythm disruption with male testosterone levels and reproductive health using integrated epidemiological and experimental evidence. In the UK Biobank (n = 38,562), rest-activity rhythm amplitude was associated with lower serum testosterone levels (-0.21 nmol/L comparing the lowest vs. highest quartiles) and increased risks of orchitis and hydrocele (hazard ratios: 1.23 and 1.14, respectively). These findings were replicated in an occupational study of shift workers in China (n = 118), where shift work was independently associated with decreased testosterone levels ({beta} = -0.301, P = 0.015). In mouse models, circadian disruption induced testicular and epididymal atrophy, spermatogenic disorders, and suppressed circulating testosterone levels, accompanied by downregulation of key steroidogenic proteins. Together, these findings provide converging evidence that circadian rhythm disruption impairs testosterone synthesis, potentially through dysregulation of steroidogenesis, highlighting circadian rhythm as a modifiable environmental determinant of male reproductive health.
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