Alcohol and aging: Next-generation epigenetic clocks predict biological age acceleration in individuals with alcohol use disorder

IF 3 Q2 SUBSTANCE ABUSE

Alcohol (Hanover, York County, Pa.) Pub Date : 2025-03-28 DOI:10.1111/acer.70020

Tyler A. Perlstein, Jeesun Jung, Alexandra C. Wagner, Joshua Reitz, Josephin Wagner, Daniel B. Rosoff, Falk W. Lohoff

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Abstract

Background

Chronic heavy alcohol use is a major risk factor for premature aging and age-related diseases. DNA methylation (DNAm)-based epigenetic clocks are novel tools for predicting biological age. However, the newest configurations, causality-enriched epigenetic clocks, have not been assessed in the context of alcohol consumption and alcohol use disorder (AUD).

Methods

Epigenetic aging was evaluated in a sample of 615 individuals (372 AUD patients and 243 healthy controls) by applying the GrimAge Version 1 (V1) and Version 2 (V2) clocks alongside three causality-enriched clocks (CausAge, DamAge, and AdaptAge). A linear model controlling for AUD diagnosis, sex, race, BMI, smoking status, and five blood cell types was leveraged to test associations between alcohol-related metrics and age-adjusted epigenetic clocks.

Results

GrimAge V1 and V2 maintained significant associations with AUD and drinking behavior measures within the total sample and both the young (<40 years old) and old (≥40 years old) subgroups. Generally, GrimAge V2 slightly outperformed GrimAge V1, while none of the causality-enriched epigenetic clocks demonstrated significant associations with AUD. However, in the young subgroup, DamAge had a significant association with the total number of drinks. Across the total sample and age subgroups, with liver function enzymes, GrimAge V2 consistently sustained stronger associations compared with GrimAge V1. Among fourth-generation clocks, DamAge exhibited significant associations with gamma-glutamyl transferase (GGT) and aspartate aminotransferase in the total sample and young subgroup; CausAge displayed a significant association with GGT in the total sample. Examining clinical biomarkers, GrimAge V2 showed improved associations with C-reactive protein compared to GrimAge V1 in the total sample and age subgroups.

Conclusions

Overall, we observed moderately improved performance of GrimAge V2 compared with GrimAge V1 with the majority of the parameters tested. The causality-enriched epigenetic clocks lacked significant associations but demonstrate the complexities of aging and inspire further research of AUD and drinking dynamics.

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背景：长期大量饮酒是导致早衰和老年相关疾病的主要风险因素。基于DNA甲基化（DNAm）的表观遗传时钟是预测生物年龄的新工具。然而，最新的配置--富含因果关系的表观遗传时钟--尚未在酒精消费和酒精使用障碍（AUD）的背景下进行评估：方法：通过应用 GrimAge 第一版（V1）和第二版（V2）时钟以及三个富含因果关系的时钟（CausAge、DamAge 和 AdaptAge），对 615 人（372 名 AUD 患者和 243 名健康对照者）的表观遗传衰老进行了评估。利用一个线性模型（控制了 AUD 诊断、性别、种族、体重指数、吸烟状况和五种血细胞类型）来检验酒精相关指标与年龄调整后的表观遗传时钟之间的关联：结果：GrimAge V1 和 V2 与总样本和年轻样本中的 AUD 和饮酒行为指标之间保持着显著的关联（结论：总体而言，我们观察到 GrimAge V1 和 V2 的表现适中：总体而言，与 GrimAge V1 相比，我们观察到 GrimAge V2 在大多数测试参数上的表现都有适度改善。因果关系丰富的表观遗传时钟缺乏显著的关联性，但表明了衰老的复杂性，并激发了对 AUD 和饮酒动态的进一步研究。

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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来源期刊

Alcohol (Hanover, York County, Pa.)

CiteScore

5.40

自引率

0.00%

发文量