发现营养素与表观遗传衰老之间的直接关系。

IF 4.3 3区 医学 Q1 GERIATRICS & GERONTOLOGY Journal of Nutrition Health & Aging Pub Date : 2024-07-26 DOI:10.1016/j.jnha.2024.100324
Pol Grootswagers , Daimy Bach , Ynte Biemans , Pariya Behrouzi , Steve Horvath , Charlotte S. Kramer , Simin Liu , JoAnn E. Manson , Aladdin H. Shadyab , James D. Stewart , Eric Whitsel , Bo Yang , Lisette de Groot
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引用次数: 0

摘要

背景:随着社会的老龄化,与年龄有关的疾病的绝对发病率预计会上升,从而给医疗系统和社会带来沉重负担。因此,促进健康老龄化迫在眉睫。相对于计时年龄,生物年龄的引入是为了准确地代表老龄化过程,因为它考虑到了与发病和死亡风险相关的生理退化。此外,生物年龄对包括营养因素在内的各种因素都有反应,而营养因素有可能减轻老年相关疾病的风险。因此,被称为表观遗传时钟的生物年龄生物标志物已成为研究营养因素与老龄化之间直接关系的合适指标,从而确定改善健康老龄化的潜在干预目标:在这项研究中,我们分析了来自妇女健康倡议的 3969 名绝经后妇女的数据,通过使用一种名为 PhenoAge 表观遗传时钟的生物年龄精确测量方法来确定与衰老速度相关的营养素。我们使用数据驱动的探索性分析工具--Copula图形模型来确定营养素摄入量与年龄加速之间的直接关系,同时对数据集中的每个变量进行校正:结果:我们发现,从膳食中摄入更多的香豆素、β-胡萝卜素和花生四烯酸与表观遗传衰老减速有关。相比之下,添加糖、刚果酸、山嵛酸、花生四烯酸、维生素 A 和灰分摄入量的增加与绝经后妇女表观遗传老化的加速有关:我们的研究发现了营养素与表观遗传老化之间的直接关系,揭示了后续研究的前景领域,以确定我们估计的膳食-表观遗传关系的程度和因果关系。
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Discovering the direct relations between nutrients and epigenetic ageing

Background

Along with the ageing of society, the absolute prevalence of age-related diseases is expected to rise, leading to a substantial burden on healthcare systems and society. Thus, there is an urgent need to promote healthy ageing. As opposed to chronological age, biological age was introduced to accurately represent the ageing process, as it considers physiological deterioration that is linked to morbidity and mortality risk. Furthermore, biological age responds to various factors, including nutritional factors, which have the potential to mitigate the risk of age-related diseases. As a result, a promising biomarker of biological age known as the epigenetic clock has emerged as a suitable measure to investigate the direct relations between nutritional factors and ageing, thereby identifying potential intervention targets to improve healthy ageing.

Methods

In this study, we analysed data from 3,969 postmenopausal women from the Women's Health Initiative to identify nutrients that are associated with the rate of ageing by using an accurate measure of biological age called the PhenoAge epigenetic clock. We used Copula Graphical Models, a data-driven exploratory analysis tool, to identify direct relationships between nutrient intake and age-acceleration, while correcting for every variable in the dataset.

Results

We revealed that increased dietary intakes of coumestrol, beta-carotene and arachidic acid were associated with decelerated epigenetic ageing. In contrast, increased intakes of added sugar, gondoic acid, behenic acid, arachidonic acid, vitamin A and ash were associated with accelerated epigenetic ageing in postmenopausal women.

Conclusion

Our study discovered direct relations between nutrients and epigenetic ageing, revealing promising areas for follow-up studies to determine the magnitude and causality of our estimated diet-epigenetic relationships.

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来源期刊
CiteScore
7.80
自引率
3.40%
发文量
136
审稿时长
4-8 weeks
期刊介绍: There is increasing scientific and clinical interest in the interactions of nutrition and health as part of the aging process. This interest is due to the important role that nutrition plays throughout the life span. This role affects the growth and development of the body during childhood, affects the risk of acute and chronic diseases, the maintenance of physiological processes and the biological process of aging. A major aim of "The Journal of Nutrition, Health & Aging" is to contribute to the improvement of knowledge regarding the relationships between nutrition and the aging process from birth to old age.
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