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Distinct methylomic signatures of high-altitude acclimatization and adaptation in the Tibetan Plateau

Feifei Cheng, Ren‐Juan Shen, Zhili Zheng, Zhen Ji Chen, Peng-Juan Huang, Zhuokun Feng, Xiaoman Li, Na Lin, Meiqin Zheng, Yuanbo Liang, Jia Qu, Fan Lü, Zi‐Bing Jin, Jian Yang

2025Cell Discovery9 citationsDOIOpen Access PDF

Abstract

High altitude presents a challenging environment for human settlement. DNA methylation is an essential epigenetic mechanism that responds to environmental stimuli, but its roles in high-altitude short-term acclimatization (STA) and long-term adaptation (LTA) are poorly understood. Here, we conducted a methylome-wide association study involving 687 native highlanders and 299 acclimatized newcomers in the Tibetan Plateau and 462 native lowlanders to identify differentially methylated sites (DMSs) associated with STA or LTA. We identified 93 and 4070 DMSs for STA and LTA, respectively, which had no overlap, showed opposite asymmetric effect size patterns, and resided near genes enriched in distinct biological pathways/processes (e.g., cell cycle for STA and immune diseases and calcium signalling pathway for LTA). Epigenetic clock analysis revealed evidence of accelerated ageing in the acclimatized newcomers compared to the native lowlanders. Our research provides novel insights into epigenetic regulation in relation to high altitude and intervention strategies for altitude-related ageing or illnesses.

Topics & Concepts

EpigeneticsAcclimatizationEffects of high altitude on humansBiologyAdaptation (eye)DNA methylationAltitude (triangle)Plateau (mathematics)GeneticsEvolutionary biologyGeneNeuroscienceGene expressionMathematical analysisMathematicsAnatomyGeometryEpigenetics and DNA MethylationHigh Altitude and HypoxiaCancer, Hypoxia, and Metabolism