一生中社会经济地位与中年时期 DNA 甲基化年龄加速。

Life course socioeconomic position and DNA methylation age acceleration in mid-life.

机构信息

Department of Epidemiology & Public Health, UCL, London, UK

UCL Social Research Institute, UCL, London, UK.

出版信息

J Epidemiol Community Health. 2021 Nov;75(11):1084-1090. doi: 10.1136/jech-2020-215608. Epub 2021 Apr 27.

DOI:10.1136/jech-2020-215608

PMID:33906906

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8515099/

Abstract

BACKGROUND

Ageing biomarkers can help us better understand how well-established socioeconomic position (SEP) disparities in ageing occur. A promising new set of DNAm methylation (DNAm)-based ageing biomarkers indicate through their age acceleration (AA) measures if biological ageing is slower or faster than chronological ageing. Few studies have investigated the association between SEP and DNAm AA.

METHODS

We used linear regression to examine the sex-adjusted relationships between childhood social class, adult social class, intergenerational social class change, education and adult household earnings with first (Horvath AA and Hannum AA) and second generation (PhenoAge AA and GrimAge AA) DNAm AA markers using data from the MRC National Survey of Health and Development.

RESULTS

In the first-generation biomarkers, there was little evidence of any associations with Horvath AA but associations of childhood social class and income with Hannum AA were observed. Strong associations were seen between greater disadvantage in childhood and adult SEP and greater AA in the second generation biomarkers. For example, those with fathers in an unskilled occupational social class in childhood had 3.6 years greater PhenoAge AA (95% CI 1.8 to 5.4) than those with fathers from a professional social class. Individuals without qualifications had higher AA compared with those with higher education (4.1 years greater GrimAge AA (95% CI 3.1 to 5.0)).

CONCLUSION

Our findings highlight the importance of exposure to social disadvantage in childhood to the biological ageing process. The second generation clocks appear to be more sensitive to the accumulation of social disadvantage across the life course.

摘要

背景

衰老生物标志物可以帮助我们更好地了解既定的社会经济地位（SEP）在衰老过程中的差异是如何产生的。一组有前途的新的基于 DNAm 甲基化（DNAm）的衰老生物标志物通过其年龄加速（AA）指标来衡量生物衰老是否比实际年龄更慢或更快。很少有研究调查 SEP 与 DNAm AA 之间的关系。

方法

我们使用线性回归来研究童年社会阶层、成年社会阶层、代际社会阶层变化、教育和成年家庭收入与第一代（Horvath AA 和 Hannum AA）和第二代（PhenoAge AA 和 GrimAge AA）DNAm AA 标志物之间的性别调整关系，使用来自 MRC 国家健康与发展调查的数据。

结果

在第一代生物标志物中，几乎没有证据表明 Horvath AA 与任何因素有关，但观察到童年社会阶层和收入与 Hannum AA 之间存在关联。在第二代生物标志物中，童年和成年 SEP 中处于较大劣势以及 AA 较大的人之间存在较强的关联。例如，那些童年时期父亲处于非技术职业社会阶层的人，其 PhenoAge AA 比那些父亲来自专业社会阶层的人长 3.6 年（95%CI 1.8 至 5.4）。没有资格的人比接受过高等教育的人具有更高的 AA（4.1 年长的 GrimAge AA（95%CI 3.1 至 5.0））。

结论

我们的研究结果强调了童年时期接触社会劣势对生物衰老过程的重要性。第二代时钟似乎对整个生命周期中社会劣势的积累更为敏感。

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