AHRR 的 DNA 甲基化是烟雾暴露的主要预测指标,也是睡眠和运动的生物标志物。

IF 4.8 2区 医学 Q1 GENETICS & HEREDITY
Ewelina Pośpiech, Joanna Rudnicka, Rezvan Noroozi, Aleksandra Pisarek-Pacek, Bożena Wysocka, Aleksander Masny, Michał Boroń, Kamila Migacz-Gruszka, Paulina Pruszkowska-Przybylska, Magdalena Kobus, Dagmara Lisman, Grażyna Zielińska, Sandra Cytacka, Aleksandra Iljin, Joanna A Wiktorska, Małgorzata Michalczyk, Piotr Kaczka, Michał Krzysztofik, Aneta Sitek, Magdalena Spólnicka, Andrzej Ossowski, Wojciech Branicki
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引用次数: 0

摘要

背景:与自我报告相比,DNA甲基化分析能更准确地衡量吸烟状况,并有助于指导临床干预和法医调查。在本研究中,我们使用 Illuminia EPIC 对近 800 名波兰人的血液 DNA 甲基化图谱进行了检测,并探讨了从表观遗传学数据推断吸烟情况的问题。此外,我们还重点研究了 AHRR 基因作为吸烟最高标志物的作用,并调查了它与其他生活方式行为的反应:结果:我们发现了大于 450 个与吸烟相关的重要 CpGs,这些 CpGs 在细胞通讯、应激反应、血管发育、细胞死亡和动脉粥样硬化等各种生物功能中都有较高的代表性。由 AHRR 中的 cg05575921(p = 4.5 × 10-32)和另外三个 CpGs(cg09594361、CNTNAP2 中的 cg21322436 和 cg09842685)组成的模型能够在测试集中预测吸烟状态,准确率高达 AUC = 0.8。重要的是,从偶尔吸烟者到经常大量吸烟者,吸烟概率呈逐渐上升趋势。此外,与目前吸烟者和从不吸烟者相比,曾经吸烟者的DNA甲基化状况处于中间水平,因此我们的研究结果表明,戒烟后DNA甲基化具有潜在的可逆性。AHRR 在预测分析中发挥了关键作用,解释了 21.5% 的吸烟变异。此外,我们还分析了 AHRR 甲基化与其他可改变的生活方式因素的关联,结果表明睡眠和体育锻炼对 AHRR 甲基化有显著影响。我们还发现,除了两个第一代表观遗传时钟外,吸烟的表观遗传评分与大多数测试的表观遗传时钟都有显著相关性:我们的研究表明,戒烟后,如果人们在体育锻炼和睡眠时间方面改变生活方式,可能会更快地恢复到从未吸烟者的甲基化水平。由于有文献指出吸烟是导致表观遗传衰老的主要原因,而 AHRR 似乎可以通过多种外源因素进行调节,因此它成为了一个很有前景的干预和投资目标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DNA methylation at AHRR as a master predictor of smoke exposure and a biomarker for sleep and exercise.

Background: DNA methylation profiling may provide a more accurate measure of the smoking status than self-report and may be useful in guiding clinical interventions and forensic investigations. In the current study, blood DNA methylation profiles of nearly 800 Polish individuals were assayed using Illuminia EPIC and the inference of smoking from epigenetic data was explored. In addition, we focused on the role of the AHRR gene as a top marker for smoking and investigated its responsiveness to other lifestyle behaviors.

Results: We found > 450 significant CpGs associated with cigarette consumption, and overrepresented in various biological functions including cell communication, response to stress, blood vessel development, cell death, and atherosclerosis. The model consisting of cg05575921 in AHRR (p = 4.5 × 10-32) and three additional CpGs (cg09594361, cg21322436 in CNTNAP2 and cg09842685) was able to predict smoking status with a high accuracy of AUC = 0.8 in the test set. Importantly, a gradual increase in the probability of smoking was observed, starting from occasional smokers to regular heavy smokers. Furthermore, former smokers displayed the intermediate DNA methylation profiles compared to current and never smokers, and thus our results indicate the potential reversibility of DNA methylation after smoking cessation. The AHRR played a key role in a predictive analysis, explaining 21.5% of the variation in smoking. In addition, the AHRR methylation was analyzed for association with other modifiable lifestyle factors, and showed significance for sleep and physical activity. We also showed that the epigenetic score for smoking was significantly correlated with most of the epigenetic clocks tested, except for two first-generation clocks.

Conclusions: Our study suggests that a more rapid return to never-smoker methylation levels after smoking cessation may be achievable in people who change their lifestyle in terms of physical activity and sleep duration. As cigarette smoking has been implicated in the literature as a leading cause of epigenetic aging and AHRR appears to be modifiable by multiple exogenous factors, it emerges as a promising target for intervention and investment.

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来源期刊
自引率
5.30%
发文量
150
期刊介绍: Clinical Epigenetics, the official journal of the Clinical Epigenetics Society, is an open access, peer-reviewed journal that encompasses all aspects of epigenetic principles and mechanisms in relation to human disease, diagnosis and therapy. Clinical trials and research in disease model organisms are particularly welcome.
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