Proteomics-based aging clocks in midlife or late-life and their associated risk of dementia.

IF 5.4 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Communications medicine Pub Date : 2025-08-14 DOI:10.1038/s43856-025-01096-y

Sanaz Sedaghat, Saeun Park, Rob F Walker, Shuo Wang, Jialing Liu, Timothy M Hughes, Behnam Sabayan, Weihong Tang, Josef Coresh, James S Pankow, Keenan A Walker, Ramon Casanova, Ruth Dubin, Rajat Deo, Jerome I Rotter, Alexis C Wood, Peter Ganz, Pamela L Lutsey, Weihua Guan, Anna Prizment

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Abstract

Background: Biological age can be quantified by composite proteomic scores, called proteomics-based aging clocks (PACs). We investigated whether a discrepancy between chronological and biological age in midlife and late-life is associated with cognition and dementia risk.

Methods: We used two longitudinal population-based studies: the Atherosclerosis Risk in Communities (ARIC) Study and the Multi-Ethnic Study of Atherosclerosis (MESA). PACs were created in ARIC at midlife (mean age: 58 years, 57% female, n = 11,758) and late-life (mean age: 77 years, 56% female, n = 4934) using elastic net regression models in two-thirds of dementia-free participants and validated in the remaining one-third of participants. Proteomics-based age acceleration (PAA) was calculated as residuals after regressing PACs on chronological age. We validated the midlife PAC in the MESA cohort (mean age: 62 years, 52% female, n = 5829). We used multivariable linear and Cox proportional hazards regression to assess the association of PAA with cognitive function and dementia incidence, respectively.

Results: In ARIC, every five years, PAA is associated with lower global cognition: difference: -0.11, 95% confidence interval[CI]: -0.16, -0.06) using midlife PAA and difference: -0.17, CI: -0.23, -0.12 using late-life PAA. Midlife PAA is associated with higher dementia risk (hazard ratio[HR]: 1.20 [CI: 1.04, 1.36]) and more prominently when using late-life PAA (HR: 2.14 [CI:1.67, 2.73]). Similar findings are observed in MESA: PAA is associated with lower global cognitive function (difference: -0.08 [CI: -0.14, -0.03]) and higher dementia risk (HR:1.23 [CI: 1.04, 1.46]).

Conclusions: Accelerated biological age is associated with lower cognition and a higher risk of dementia in midlife and more prominently in late life.

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基于蛋白质组学的中年或晚年衰老时钟及其相关的痴呆风险。

背景：生物年龄可以通过复合蛋白质组学评分来量化，称为基于蛋白质组学的衰老时钟（PACs）。我们调查了中年和晚年的实足年龄和生理年龄之间的差异是否与认知和痴呆风险有关。方法：我们采用了两项纵向人群研究：社区动脉粥样硬化风险研究（ARIC）和多种族动脉粥样硬化研究（MESA）。在ARIC中，三分之二的无痴呆参与者在中年（平均年龄：58岁，57%为女性，n = 11,758）和晚年（平均年龄：77岁，56%为女性，n = 4934）使用弹性净回归模型创建pac，并在其余三分之一的参与者中进行验证。基于蛋白质组学的年龄加速（PAA）作为PACs对实足年龄回归后的残差计算。我们在MESA队列中验证了中年PAC（平均年龄：62岁，52%为女性，n = 5829）。我们分别使用多变量线性和Cox比例风险回归来评估PAA与认知功能和痴呆发病率的关系。结果：在ARIC中，每5年，PAA与较低的全局认知相关：中年PAA差异为-0.11,95%可信区间[CI]: -0.16, -0.06)，晚期PAA差异为-0.17,CI: -0.23, -0.12。中年PAA与较高的痴呆风险相关（风险比[HR]: 1.20 [CI: 1.04, 1.36]），在使用老年PAA时更为显著（风险比：2.14 [CI:1.67, 2.73]）。在MESA中也观察到类似的结果：PAA与较低的整体认知功能（差异：-0.08 [CI: -0.14, -0.03]）和较高的痴呆风险相关（HR:1.23 [CI: 1.04, 1.46]）。结论：生物年龄的加速与中年认知能力下降和痴呆风险增加有关，在晚年尤为明显。

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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