表观遗传学
DNA甲基化
生物
甲基化
计算生物学
重编程
遗传学
基因
细胞生物学
基因表达
作者
Nir Eynon,Macsue Jacques,Kirsten Seale,Sarah Voisin,Anna Lysenko,Robin Grolaux,Bernadette Jones,Séverine Lamon,Itamar Levinger,Carlie Bauer,Adam P. Sharples,Aino Heikkinen,Elina Sillanpää,Miina Ollikainen,Cassandra Smith,James R. Broatch,Navabeh Zarekookandeh,Linn Gillberg,Ida Blom,Jesse R. Poganik
出处
期刊:Research Square - Research Square
日期:2025-08-07
被引量:1
标识
DOI:10.21203/rs.3.rs-7184037/v1
摘要
Abstract Aging involves widespread epigenetic remodeling across tissues, yet the nature and consistency of these changes remain unclear. We conducted a meta-analysis of more than 15,000 human methylomes spanning 17 tissues, identifying both conserved and tissue-specific aging signatures. We examined linear changes via differentially methylated positions, variability shifts via variably methylated positions, and Shannon-entropy to capture methylation disorder. Network analysis revealed fragile co-methylation modules largely resistant to beneficial perturbation. Key disruptors, including PCDHGA1, MEST, HDAC4, and HOX genes, exacerbated aging signals across tissues. Notably, a resilient module enriched for NAD⁺ salvage metabolism supports therapeutic targeting of NAD⁺ in aging. PCDHGA1 emerged as a conserved cross-tissue driver, suggesting protocadherin-mediated adhesion plays a broader role in maintaining structural and signaling stability in multiple organ systems. Our open-access atlas provides a foundational resource for dissecting the molecular architecture of human aging and identifying testable targets for intervention, biomarkers, and translational epigenetic therapies.
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