多组数据分析支持人类衰老精子介导的表观遗传的合理性。

IF 4.8 3区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Annals of the New York Academy of Sciences Pub Date : 2025-09-14 DOI:10.1111/nyas.70056

Abhay Sharma

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引用次数: 0

摘要

精子DNA甲基化变化与不良妊娠和后代疾病风险增加有关，这些风险与父亲高龄有关。本文分析了多种公开可用的人类多组学数据，评估了这些变化对跨代发育和健康影响的机制合理性。首先，衰老精子DNA中的差异甲基化CpGs被发现特异性地过度代表衰老和疾病体细胞中的差异甲基化CpGs。其次，与精子和体细胞独特的CpGs相比，精子和体细胞共同CpGs在发育基因调控区域的富集程度更高。此外，与独特的CpGs相比，与常见CpGs相关的基因在着床前和着床后发育过程中差异表达的基因中表现出更高的富集程度，最关键的是表观遗传亲和性，在已知经历父亲甲基化相关基因调控的早期胚胎和表观遗传重编程的原始生殖细胞中。对衰老和疾病相关基因也观察到较高的富集。这些结果表明，衰老的精子甲基化标记可能影响早期胚胎基因表达，下游体细胞和种系基因调控后果导致甲基化标记的重建、发育异常和疾病表型的遗传。这种基于数据的机制可能性可能与一般的表观遗传有关。

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Multi-Omic Data Analysis Supporting the Plausibility of Human Aging Sperm-Mediated Epigenetic Inheritance.

Sperm DNA methylation changes have been implicated in the increased adverse pregnancy and offspring disease risks associated with advanced paternal age. Here, an analysis of diverse, publicly available human multi-omic data is presented that assesses the mechanistic plausibility for these changes to exert cross-generational developmental and health effects. First, differentially methylated CpGs in aging sperm DNA were found to specifically overrepresent differentially methylated CpGs in aging and disease soma. Next, sperm and soma common CpGs, compared to sperm and soma unique CpGs, showed higher enrichment for regulatory regions of developmental genes. Further, genes associated with the common CpGs, compared to the unique CpGs, showed higher enrichment for genes differentially expressed during both preimplantation and postimplantation development, and most crucially for epigenetic inheritance amenability, in early embryos known to undergo paternal methylation-associated gene regulation and in epigenetically reprogrammed primordial germ cells. Higher enrichment is likewise also observed for aging- and disease-associated genes. These results suggest that aging sperm methylation marks may possibly affect early embryonic gene expression, with downstream somatic and germline gene regulatory consequences leading to reestablishment of methylation marks, developmental anomalies, and inheritance of disease phenotypes. This data-grounded mechanistic possibility could be relevant in epigenetic inheritance in general.

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来源期刊

Annals of the New York Academy of Sciences 综合性期刊-综合性期刊

CiteScore

11.00

自引率

1.90%

发文量

193

审稿时长

2-4 weeks

期刊介绍： Published on behalf of the New York Academy of Sciences, Annals of the New York Academy of Sciences provides multidisciplinary perspectives on research of current scientific interest with far-reaching implications for the wider scientific community and society at large. Each special issue assembles the best thinking of key contributors to a field of investigation at a time when emerging developments offer the promise of new insight. Individually themed, Annals special issues stimulate new ways to think about science by providing a neutral forum for discourse—within and across many institutions and fields.