双胞胎配对分析揭示了DNA甲基化、线粒体DNA数量与肥胖之间的联系。

Twin pair analysis uncovers links between DNA methylation, mitochondrial DNA quantity and obesity.

作者信息

Heikkinen Aino, Esser Vivienne F C, Lee Seung Hyuk T, Lundgren Sara, Hakkarainen Antti, Lundbom Jesper, Kuula Juho, Groop Per-Henrik, Heinonen Sini, Villicaña Sergio, Bell Jordana T, Maguolo Alice, Nilsson Emma, Ling Charlotte, Vaag Allan, Pajukanta Päivi, Kaprio Jaakko, Pietiläinen Kirsi H, Li Shuai, Ollikainen Miina

机构信息

Institute for Molecular Medicine Finland (FIMM), HiLIFE, University of Helsinki, Helsinki, Finland.

Minerva Foundation Institute for Medical Research, Helsinki, Finland.

出版信息

Nat Commun. 2025 May 12;16(1):4374. doi: 10.1038/s41467-025-59576-7.

DOI:10.1038/s41467-025-59576-7

PMID:40355419

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12069627/

Abstract

Alterations in mitochondrial metabolism in obesity may indicate disrupted communication between mitochondria and nucleus, and DNA methylation may influence this interplay. Here, we leverage data from the Finnish Twin Cohort study subcohort (n = 173; 86 full twin pairs, 1 singleton), including comprehensive measurements of obesity-related outcomes, mitochondrial DNA quantity and nuclear DNA methylation levels in adipose and muscle tissue, to identify one CpG at SH3BP4 significantly associated with mitochondrial DNA quantity in adipose tissue (FDR < 0.05). We also show that SH3BP4 methylation correlates with its gene expression. Additionally, we find that 14 out of the 35 obesity-related traits display significant associations with both SH3BP4 methylation and mitochondrial DNA quantity in adipose tissue. We use data from TwinsUK and the Scandinavian T2D-discordant monozygotic twin cohort, to validate the observed associations. Further analysis using ICE FALCON suggests that mitochondrial DNA quantity, insulin sensitivity and certain body fat measures are causal to SH3BP4 methylation. Examining mitochondrial DNA quantity and obesity-related traits suggests causation from mitochondrial DNA quantity to obesity, but unmeasured within-individual confounding cannot be ruled out. Our findings underscore the impact of mitochondrial DNA quantity on DNA methylation and expression of the SH3BP4 gene within adipose tissue, with potential implications for obesity.

摘要

肥胖症中线粒体代谢的改变可能表明线粒体与细胞核之间的通讯受到破坏，而DNA甲基化可能会影响这种相互作用。在此，我们利用芬兰双胞胎队列研究子队列（n = 173；86对同卵双胞胎，1名单胎）的数据，包括对肥胖相关结局、脂肪组织和肌肉组织中线粒体DNA数量以及核DNA甲基化水平的全面测量，以确定SH3BP4基因上一个与脂肪组织中线粒体DNA数量显著相关的CpG位点（FDR < 0.05）。我们还表明，SH3BP4甲基化与其基因表达相关。此外，我们发现35个肥胖相关性状中有14个与脂肪组织中SH3BP4甲基化和线粒体DNA数量均存在显著关联。我们使用来自英国双胞胎队列和斯堪的纳维亚2型糖尿病不一致同卵双胞胎队列的数据来验证观察到的关联。使用ICE FALCON进行的进一步分析表明，线粒体DNA数量、胰岛素敏感性和某些体脂测量指标是SH3BP4甲基化的原因。对线粒体DNA数量和肥胖相关性状的研究表明，线粒体DNA数量是肥胖的原因，但不能排除个体内未测量的混杂因素。我们的研究结果强调了线粒体DNA数量对脂肪组织中SH3BP4基因的DNA甲基化和表达的影响，这可能对肥胖症有潜在影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e39/12069627/60a91a6ff14b/41467_2025_59576_Fig1_HTML.jpg

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双胞胎配对分析揭示了DNA甲基化、线粒体DNA数量与肥胖之间的联系。

Twin pair analysis uncovers links between DNA methylation, mitochondrial DNA quantity and obesity.

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