Decoding sexually dimorphic proteomic landscapes in the context of aging and mortality.

IF 5.4 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Communications medicine Pub Date : 2025-09-29 DOI:10.1038/s43856-025-01113-0

Zhihao Jin, Bingying Du, Xuehao Jiao, Zhengsheng Gu, Tianren Wang, Li Cao, Xiaoying Bi, Lei Yuan, Bo Peng, Yanxia Rao

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Abstract

Background: Aging-associated changes are major contributors to the onset and progression of chronic diseases. Different aging clocks have been developed to assess biological aging, demonstrating their utility in predicting mortality, diagnosing disease, and evaluating the efficacy of antiaging interventions. However, the protein profile underlying the accelerating or decelerating rates of aging, hidden behind aging clocks, remains poorly understood.

Method: Based on the UK Biobank (n = 53, 013; age range 39-71 years; 53.9% men and 46.1% women), we built a proteomic-based aging clock, ProteAge, and assessed its performance in predicting all-cause mortality. Sex-specific aging trajectories and aging rate-associated proteins (ARPs) were identified.

Results: ProteAge reveals distinct aging trajectories for males and females, with females exhibiting more nonlinear changes in the aging rate than males do. We identify hundreds of accelerating and decelerating aging rate proteins (ARPs) in both sexes. Given the critical role of mortality prediction in aging and longevity research, we identify a subset of mortality-aging-associated proteins among ARPs, with a total of 1 protein in females but 172 in males. Furthermore, the protective and risk factors in both sexes are identified based on these ARPs.

Conclusions: These findings highlight sexually-dimorphic proteomic changes associated with aging and mortality, offering insights into the biological mechanisms underlying aging and longevity.

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在衰老和死亡的背景下解码两性二态蛋白质组学景观。

背景：衰老相关的变化是慢性疾病发生和发展的主要因素。人们开发了不同的衰老时钟来评估生物衰老，证明了它们在预测死亡率、诊断疾病和评估抗衰老干预措施功效方面的效用。然而，隐藏在衰老时钟背后的加速或减速衰老速率背后的蛋白质谱，仍然知之甚少。方法：基于英国生物银行（n = 53,013，年龄范围39-71岁，男性占53.9%，女性占46.1%），我们建立了一个基于蛋白质组学的衰老时钟ProteAge，并评估其在预测全因死亡率方面的性能。性别特异性衰老轨迹和衰老速率相关蛋白（ARPs）被确定。结果：ProteAge在男性和女性中显示出不同的衰老轨迹，女性的衰老速率比男性表现出更多的非线性变化。我们在两性中发现了数百种加速和减缓衰老速率的蛋白质（ARPs）。鉴于死亡率预测在衰老和长寿研究中的关键作用，我们在ARPs中确定了一个与死亡衰老相关的蛋白质子集，女性中共有1个蛋白质，而男性中有172个蛋白质。此外，根据这些arp确定了两性的保护和危险因素。结论：这些发现强调了与衰老和死亡率相关的性别二态蛋白质组学变化，为衰老和长寿的生物学机制提供了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Communications medicine

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