Epigenome-wide Association Analysis of Mitochondrial Heteroplasmy Provides Insight into Molecular Mechanisms of Disease.

Meng Lai, Kyeezu Kim, Yinan Zheng, Christina A Castellani, Scott M Ratliff, Mengyao Wang, Xue Liu, Jeffrey Haessler, Tianxiao Huan, Lawrence F Bielak, Wei Zhao, Roby Joehanes, Jiantao Ma, Xiuqing Guo, JoAnn E Manson, Megan L Grove, Jan Bressler, Kent D Taylor, Tuuli Lappalainen, Silva Kasela, Thomas W Blackwell, Nicole J Lake, Jessica D Faul, Kendra R Ferrier, Lifang Hou, Charles Kooperberg, Alexander P Reiner, Kai Zhang, Patricia A Peyser, Myriam Fornage, Eric Boerwinkle, Laura M Raffield, April P Carson, Stephen S Rich, Yongmei Liu, Daniel Levy, Jerome I Rotter, Jennifer A Smith, Dan E Arking, Chunyu Liu
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Abstract

The relationship between mitochondrial DNA (mtDNA) heteroplasmy and nuclear DNA (nDNA) methylation (CpGs) remains to be studied. We conducted an epigenome-wide association analysis of heteroplasmy burden scores across 10,986 participants (mean age 77, 63% women, and 54% non-White races/ethnicities) from seven population-based observational cohorts. We identified 412 CpGs (FDR p < 0.05) associated with mtDNA heteroplasmy. Higher levels of heteroplasmy burden were associated with lower nDNA methylation levels at most significant CpGs. Functional inference analyses of genes annotated to heteroplasmy-associated CpGs emphasized mitochondrial functions and showed enrichment in cardiometabolic conditions and traits. We developed CpG-scores based on heteroplasmy-count associated CpGs (MHC-CpG scores) using elastic net Cox regression in a training cohort. A one-unit higher level of the standardized MHC-CpG scores were associated with 1.26-fold higher hazard of all-cause mortality (95% CI: 1.14, 1.39) and 1.09-fold higher hazard of CVD (95% CI: 1.01-1.17) in the meta-analysis of testing cohorts, adjusting for age, sex, and smoking. These findings shed light on the relationship between mtDNA heteroplasmy and DNA methylation, and the role of heteroplasmy-associated CpGs as biomarkers in predicting all-cause mortality and cardiovascular disease.

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线粒体异形的全表观基因组关联分析为疾病的分子机制提供了洞察力。
线粒体 DNA(mtDNA)异质性与核 DNA(nDNA)甲基化(CpGs)之间的关系仍有待研究。我们对来自七个人群观察队列的 10,986 名参与者(平均年龄 77 岁,63% 为女性,54% 为非白人种族/族裔)进行了表观基因组范围的异质性负担评分关联分析。我们发现了 412 个与 mtDNA 异质性相关的 CpGs(FDR p < 0.05)。在大多数重要的 CpGs 上,较高水平的异源蛋白负担与较低的 nDNA 甲基化水平相关。对注释到与异源基因相关的 CpGs 的基因进行的功能推断分析强调了线粒体功能,并显示了在心脏代谢状况和性状中的富集。我们利用训练队列中的弹性网 Cox 回归,根据与异质体相关的 CpG(MHC-CpG 分数)制定了 CpG 分数。在对测试队列进行的荟萃分析中,标准化 MHC-CpG 分数每增加一个单位,全因死亡率的危险性就会增加 1.26 倍(95% CI:1.14, 1.39),心血管疾病的危险性增加 1.09 倍(95% CI:1.01-1.17),并对年龄、性别和吸烟进行了调整。这些发现揭示了mtDNA异质性与DNA甲基化之间的关系,以及异质性相关CpGs作为生物标志物在预测全因死亡率和心血管疾病中的作用。
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