蓝图
人口
老年学
端粒
医学
生物
人类生物学
人口学
人口老龄化
梅德林
多发病率
百岁老人
健康衰老
心理学
进化生物学
作者
Eloy Santos-Pujol,Aleix Noguera‐Castells,Marta Casado-Peláez,Carlos A. García‐Prieto,Claudia Vasallo,Ignacio Campillo‐Marcos,Carlos Quero-Dotor,Eva Crespo-García,Alberto Bueno-Costa,Fernando Setién,Gerardo Ferrer,Verónica Dávalos,Elisabetta Mereu,Raquel Pluvinet,Carles Arribas,Carolina de la Torre,Francisco Villavicencio,Lauro Sumoy,Isabel Granada,Natalie S. Coles
标识
DOI:10.1016/j.xcrm.2025.102368
摘要
Extreme human lifespan, exemplified by supercentenarians, presents a paradox in understanding aging: despite advanced age, they maintain relatively good health. To investigate this duality, we have performed a high-throughput multiomics study of the world's oldest living person, interrogating her genome, transcriptome, metabolome, proteome, microbiome, and epigenome, comparing the results with larger matched cohorts. The emerging picture highlights different pathways attributed to each process: the record-breaking advanced age is manifested by telomere attrition, abnormal B cell population, and clonal hematopoiesis, whereas absence of typical age-associated diseases is associated with rare European-population genetic variants, low inflammation levels, a rejuvenated bacteriome, and a younger epigenome. These findings provide a fresh look at human aging biology, suggesting biomarkers for healthy aging, and potential strategies to increase life expectancy. The extrapolation of our results to the general population will require larger cohorts and longitudinal prospective studies to design potential anti-aging interventions.
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