新生儿线粒体DNA拷贝数与DNA甲基化变化相关,这些变化会持续到儿童期,并与认知发展有关。
Newborn mitochondrial DNA copy number is associated with changes to DNA methylation that persist into childhood and are associated with cognitive development.
作者信息
Kupsco Allison, Heiss Jonathan A, Sanchez-Guerra Marco, Estrada-Gutierrez Guadalupe, Lesseur Corina, Hernández Carmen, Bloomquist Tessa R, Abigail Gaylord, Guo Jia, Wang Shuang, Herbstman Julie B, Just Allan C, Téllez-Rojo Martha M, Wright Robert O, Baccarelli Andrea A
机构信息
Department of Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, NY, USA.
Department of Environmental Medicine and Public Health, Icahn School of Medicine at Mount Sinai, New York, NY, USA.
出版信息
Clin Epigenetics. 2025 Jul 2;17(1):112. doi: 10.1186/s13148-025-01896-y.
BACKGROUND/OBJECTIVES: Mitochondrial-nuclear crosstalk is critical for cell function, and nuclear DNA methylation (DNAm) may regulate this process. Mitochondria maintain an extranuclear genome, and mitochondrial DNA copy number (mtDNA-CN) has been previously associated with DNAm. However, there is little information on this relationship in children, whose brains are particularly vulnerable to energetic perturbations during development. Our objectives were to (1) characterize associations of mtDNA-CN with nuclear DNAm at birth; (2) determine their persistence into childhood; and (3) investigate associations in relation to neurodevelopment.
METHODS
We quantified mtDNA-CN with qRT-PCR and DNAm with the MethylationEPIC BeadChip array in umbilical cord leukocytes (N = 422) in newborns from the PROGRESS birth cohort in Mexico City (2007-2011). At the 48-month visit, we measured DNAm in peripheral blood leukocytes (N = 177) and assessed the McCarthy Scales of Children's Abilities (N = 290). We performed an epigenome-wide association study (EWAS) with cord mtDNA-CN in mitochondrially relevant genes (23,261 CpG sites) and across the genome (745,691 sites). We determined if our results persisted until childhood and were associated with cognitive scales. The findings were replicated in a US-based cohort (N = 130).
RESULTS
We observed 11 and 165 differentially methylated positions (DMPs) in mitochondria-related nuclear genes and across the genome, respectively, after correction for multiple comparisons. In mitochondrial genes, two significant DMPs mapped to PRELID3A and a DMP in the promoter region of SLC25A24 replicated in our external cohort. At 48 months of age, 17 of 165 DMPs remained associated with cord mtDNA-CN, 12 were associated with child memory scales, and associations with 17 replicated in our external cohort. Several positions mapped to genes in immune activation and development.
CONCLUSIONS
In newborns, mtDNA-CN was associated with DNAm in mitochondria-related genes and throughout the genome, several of which remained associated in childhood, were associated with child memory scales, and were replicated in a US-based cohort. These findings open new avenues for future targets for children's health and disease.
背景/目的:线粒体-细胞核相互作用对细胞功能至关重要,而核DNA甲基化(DNAm)可能调节这一过程。线粒体维持着一个核外基因组,线粒体DNA拷贝数(mtDNA-CN)此前已被证明与DNAm有关。然而,关于儿童中这种关系的信息很少,儿童的大脑在发育过程中特别容易受到能量干扰。我们的目标是:(1)描述出生时mtDNA-CN与核DNAm之间的关联;(2)确定它们在儿童期是否持续存在;(3)研究与神经发育相关的关联。
方法
我们在墨西哥城(2007 - 2011年)PROGRESS出生队列的新生儿脐带血白细胞(N = 422)中,用qRT-PCR定量mtDNA-CN,用甲基化EPIC芯片阵列定量DNAm。在48个月随访时,我们测量了外周血白细胞中的DNAm(N = 177),并评估了麦卡锡儿童能力量表(N = 290)。我们在与线粒体相关的基因(23,261个CpG位点)和全基因组(745,691个位点)中进行了全表观基因组关联研究(EWAS),以脐带mtDNA-CN为指标。我们确定我们的结果是否持续到儿童期,并与认知量表相关。研究结果在美国队列(N = 130)中进行了重复验证。
结果
在进行多重比较校正后,我们分别在线粒体相关核基因和全基因组中观察到11个和165个差异甲基化位点(DMPs)。在线粒体基因中,两个显著的DMPs定位于PRELID3A,一个位于SLC25A24启动子区域的DMP在我们的外部队列中得到重复验证。在48个月大时,165个DMPs中的17个仍与脐带mtDNA-CN相关,12个与儿童记忆量表相关,其中17个关联在我们的外部队列中得到重复验证。几个位点定位于免疫激活和发育相关的基因。
结论
在新生儿中,mtDNA-CN与线粒体相关基因及全基因组中的DNAm相关,其中一些在儿童期仍保持关联,与儿童记忆量表相关,并在美国队列中得到重复验证。这些发现为儿童健康与疾病的未来靶点开辟了新途径。
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