DNA甲基化测量在不同时间间隔和急性应激条件下的生物稳定性。

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Abner T Apsley, Qiaofeng Ye, Laura Etzel, Sarah Wolf, Waylon J Hastings, Brooke C Mattern, Sue Rutherford Siegel, Idan Shalev
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引用次数: 0

摘要

识别影响生物复制DNA甲基化测量稳定性的因素在基础和临床研究中至关重要。使用人内小组间实验设计(n = 31,观察次数 = 192),我们报道了在各种独特的时间场景中,无论是在没有和存在急性心理社会压力的情况下,还是在经历过早期生活逆境(ELA)的个体和未暴露的个体之间,生物复制的稳定性。我们发现,不同的时间间隔、急性应激和ELA暴露会影响重复DNA甲基化测量的稳定性。在没有急性应激的情况下,随着时间的推移,探针的稳定性较差;然而,应力在较长的时间间隔内对探针产生稳定影响。与未暴露的个体相比,ELA暴露的个体在急性应激后立即具有显著较低的探针稳定性。此外,我们发现,在所有情况下,用于估计表观遗传年龄或免疫细胞比例的大多数基于表观遗传的算法中使用的探针具有平均或低于平均水平的稳定性,除了主成分和DunedinPACE表观遗传老化时钟,它们富集了更稳定的探针。最后,在没有应激的情况下使用高度稳定的探针,我们确定了在存在急性应激的情况中,无论ELA状态如何,都是低甲基化的多个探针。两个低甲基化探针位于谷胱甘肽二硫还原酶基因(GSR)的转录起始位点附近,该基因先前已被证明是对环境毒素的应激反应的组成部分。我们讨论了DNA甲基化测量的可靠性和可重复性对未来研究的影响。缩写:DNAm-DNA甲基化,CpG-5'-胞嘧啶-磷酸鸟嘌呤-3,'ICC-类间相关系数,ELA-早期生活逆境,PBMCs-外周血单核细胞,mQTL-甲基化定量性状基因座,TSS-转录起始位点,GSR-谷胱甘肽二硫还原酶基因,TSST-Trier社会压力测试,PC-主成分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Biological stability of DNA methylation measurements over varying intervals of time and in the presence of acute stress.

Biological stability of DNA methylation measurements over varying intervals of time and in the presence of acute stress.

Biological stability of DNA methylation measurements over varying intervals of time and in the presence of acute stress.

Biological stability of DNA methylation measurements over varying intervals of time and in the presence of acute stress.

Identifying factors that influence the stability of DNA methylation measurements across biological replicates is of critical importance in basic and clinical research. Using a within-person between-group experimental design (n = 31, number of observations = 192), we report the stability of biological replicates over a variety of unique temporal scenarios, both in the absence and presence of acute psychosocial stress, and between individuals who have experienced early life adversity (ELA) and non-exposed individuals. We found that varying time intervals, acute stress, and ELA exposure influenced the stability of repeated DNA methylation measurements. In the absence of acute stress, probes were less stable as time passed; however, stress exerted a stabilizing influence on probes over longer time intervals. Compared to non-exposed individuals, ELA-exposed individuals had significantly lower probe stability immediately following acute stress. Additionally, we found that across all scenarios, probes used in most epigenetic-based algorithms for estimating epigenetic age or immune cell proportions had average or below-average stability, except for the Principal Component and DunedinPACE epigenetic ageing clocks, which were enriched for more stable probes. Finally, using highly stable probes in the absence of stress, we identified multiple probes that were hypomethylated in the presence of acute stress, regardless of ELA status. Two hypomethylated probes are located near the transcription start site of the glutathione-disulfide reductase gene (GSR), which has previously been shown to be an integral part of the stress response to environmental toxins. We discuss implications for future studies concerning the reliability and reproducibility of DNA methylation measurements.Abbreviations: DNAm - DNA methylation, CpG - 5'-cytosine-phosphate-guanine-3,' ICC - Interclass correlation coefficient, ELA - Early-life adversity, PBMCs - Peripheral blood mononuclear cells, mQTL - Methylation quantitative trait loci, TSS - Transcription start site, GSR - Glutathione-disulfide reductase gene, TSST - Trier social stress test, PC - Principal component.

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来源期刊
Epigenetics
Epigenetics 生物-生化与分子生物学
CiteScore
6.80
自引率
2.70%
发文量
82
审稿时长
3-8 weeks
期刊介绍: Epigenetics publishes peer-reviewed original research and review articles that provide an unprecedented forum where epigenetic mechanisms and their role in diverse biological processes can be revealed, shared, and discussed. Epigenetics research studies heritable changes in gene expression caused by mechanisms others than the modification of the DNA sequence. Epigenetics therefore plays critical roles in a variety of biological systems, diseases, and disciplines. Topics of interest include (but are not limited to): DNA methylation Nucleosome positioning and modification Gene silencing Imprinting Nuclear reprogramming Chromatin remodeling Non-coding RNA Non-histone chromosomal elements Dosage compensation Nuclear organization Epigenetic therapy and diagnostics Nutrition and environmental epigenetics Cancer epigenetics Neuroepigenetics
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