睡眠(系统调用)
孟德尔随机化
老化
持续时间(音乐)
萧条(经济学)
疾病
医学
健康老龄化
活动记录
慢波睡眠
痴呆
生物年龄
睡眠剥夺
昼夜节律
生理学
老年学
睡眠障碍
听力学
睡眠债
阿尔茨海默病
时间生物学
心理学
生物信息学
神经科学
失眠症
健康衰老
作者
Cliodhna Kate O’Toole,Zhiyuan Song,Filippos Anagnostakis,Zhijian Yang,Ye Tian,Michael R. Duggan,Chunrui Zou,Yue Leng,Yi Cai,Wenjia Bai,Cynthia H.Y. Fu,Michael S. Rafii,Paul Aisen,G M Wang,Philip L. De Jager,Jian Zeng,Hamilton Oh,Xia Zhou,Keenan A. Walker,Daniel W. Belsky
出处
期刊:Nature
[Nature Portfolio]
日期:2026-05-13
被引量:1
标识
DOI:10.1038/s41586-026-10524-5
摘要
Optimal sleep has a vital role in promoting healthy ageing and enhancing longevity. Here we propose Sleep Chart to assess the relationship between self-reported sleep duration and 23 biological ageing clocks derived from in vivo imaging1, plasma proteomics2 and metabolomics3. First, a systemic, U-shaped pattern emerges between sleep duration and biological age gaps across nine brain and body systems and three omics technologies. The sample-specific lowest biological age gaps are achieved between 6.4 and 7.8 h of sleep duration, varying by organ and sex in the UK Biobank (aged 37–84 years). Furthermore, short (<6 h) and long (>8 h) sleep duration, compared with a normal sleep duration (6–8 h), are associated with increased risk of systemic diseases beyond the brain and all-cause mortality, with evidence from genetic correlations and time-to-incident survival predictions, such as depression and diabetes. Finally, the pathways by which long and short sleep duration are associated with late-life depression differ: ageing clocks may partially mediate the pathway for long sleep duration, while short sleep duration shows a more direct link. Although Mendelian randomization does not provide strong evidence that disease causally affects sleep, it cannot completely exclude such reverse causality. Our findings suggest a cross-organ, multi-omics U-shaped relationship between sleep duration and biological ageing clocks, highlighting the potential of sleep optimization to promote healthy ageing, lower disease risk and extend longevity. A cross-organ, multi-omics U-shaped relationship between sleep duration and biological ageing clocks highlights the potential of sleep optimization to promote healthy ageing, lower disease risk and extend longevity.
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