DNA甲基化年龄加速与糖尿病并发症风险相关。

DNA methylation age acceleration is associated with risk of diabetes complications.

作者信息

Vetter Valentin Max, Spieker Johanne, Sommerer Yasmine, Buchmann Nikolaus, Kalies Christian Humberto, Regitz-Zagrosek Vera, Bertram Lars, Demuth Ilja

机构信息

Charité - Universitätsmedizin Berlin, corporate member of Freie Universität Berlin and Humboldt-Universität zu Berlin, Department of Endocrinology and Metabolic Diseases (including Division of Lipid Metabolism), Biology of Aging working group, Augustenburger Platz 1, 13353, Berlin, Germany.

Lübeck Interdisciplinary Platform for Genome Analytics (LIGA), University of Lübeck, Lübeck, Germany.

出版信息

Commun Med (Lond). 2023 Feb 10;3(1):21. doi: 10.1038/s43856-023-00250-8.

DOI:10.1038/s43856-023-00250-8

PMID:36765171

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9918553/

Abstract

BACKGROUND

Patients with Type 2 diabetes mellitus (T2D) are at risk for micro- and macrovascular complications. Implementable risk scores are needed to improve targeted prevention for patients that are particularly susceptible to complications. The epigenetic clock estimates an individual's biological age using DNA methylation profiles.

METHODS

In this study, we examined older adults of the Berlin Aging Study II that were reexamined on average 7.4 years after baseline assessment as part of the GendAge study. DNA methylation age (DNAmA) and its deviation from chronological age DNAmA acceleration (DNAmAA) were calculated with the 7-CpG clock (available at both timepoints, n = 1,071), Horvath's clock, Hannum's clock, PhenoAge and GrimAge (available at follow-up only, n = 1,067). T2D associated complications were assessed with the Diabetes Complications Severity Index (DCSI).

RESULTS

We report on a statistically significant association between oral glucose tolerance test results and Hannum and PhenoAge DNAmAA. PhenoAge was also associated with fasting glucose. In contrast, we found no cross-sectional association after covariate adjustment between DNAmAA and a diagnosis of T2D. However, longitudinal analyses showed that every additional year of 7-CpG DNAmAA at baseline increased the odds for developing one or more additional complications or worsening of an already existing complication during the follow-up period by 11% in male participants with T2D. This association persisted after covariate adjustment (OR = 1.11, p = 0.045, n = 56).

CONCLUSION

Although our results remain to be independently validated, this study shows promising evidence of utility of the 7-CpG clock in identifying patients with diabetes who are at high risk for developing complications.

摘要

背景

2型糖尿病（T2D）患者存在微血管和大血管并发症风险。需要可实施的风险评分来改善对特别易患并发症患者的针对性预防。表观遗传时钟利用DNA甲基化谱估计个体的生物学年龄。

方法

在本研究中，我们对柏林衰老研究II的老年人进行了检查，这些老年人在基线评估后平均7.4年作为GendAge研究的一部分接受了重新检查。使用7-CpG时钟（两个时间点均可用，n = 1,071）、霍瓦斯时钟、汉纳姆时钟、PhenoAge和GrimAge（仅在随访时可用，n = 1,067）计算DNA甲基化年龄（DNAmA）及其与实际年龄的偏差DNAmA加速度（DNAmAA）。用糖尿病并发症严重程度指数（DCSI）评估T2D相关并发症。

结果

我们报告口服葡萄糖耐量试验结果与汉纳姆和PhenoAge DNAmAA之间存在统计学显著关联。PhenoAge也与空腹血糖相关。相比之下，在对协变量进行调整后，我们发现DNAmAA与T2D诊断之间没有横断面关联。然而，纵向分析表明，在基线时，7-CpG DNAmAA每增加一年，T2D男性参与者在随访期间出现一种或多种额外并发症或已有并发症恶化的几率增加11%。在对协变量进行调整后，这种关联仍然存在（OR = 1.11，p = 0.045，n = 56）。

结论

尽管我们的结果有待独立验证，但本研究显示了7-CpG时钟在识别有并发症高风险的糖尿病患者方面有用的有前景证据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d42a/9918553/e4105a7c629e/43856_2023_250_Fig1_HTML.jpg

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DNA甲基化年龄加速与糖尿病并发症风险相关。

DNA methylation age acceleration is associated with risk of diabetes complications.

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