DNA methylation clocks tick in naked mole rats but queens age more slowly than nonbreeders

Steve Horvath, Amin Haghani, Nicholas Macoretta, Julia Ablaeva, Joseph A. Zoller, Caesar Z. Li, Joshua Zhang, Masaki Takasugi, Yang Zhao, Elena Rydkina, Zhihui Zhang, Stephan Emmrich, Ken Raj, Andrei Seluanov, Chris G. Faulkes, Vera Gorbunova

doi:10.1038/s43587-021-00152-1

<jats:title>Abstract</jats:title><jats:p>Naked mole rats (NMRs) live an exceptionally long life, appear not to exhibit age-related decline in physiological capacity and are resistant to age-related diseases. However, it has been unknown whether NMRs also evade aging according to a primary hallmark of aging: epigenetic changes. To address this question, we profiled <jats:italic>n</jats:italic> = 385 samples from 11 tissue types at loci that are highly conserved between mammalian species using a custom array (HorvathMammalMethylChip40). We observed strong epigenetic aging effects and developed seven highly accurate epigenetic clocks for several tissues (pan-tissue, blood, kidney, liver, skin clocks) and two dual-species (human–NMR) clocks. The skin clock correctly estimated induced pluripotent stem cells derived from NMR fibroblasts to be of prenatal age. The NMR epigenetic clocks revealed that breeding NMR queens age more slowly than nonbreeders, a feature that is also observed in some eusocial insects. Our results show that despite a phenotype of negligible senescence, the NMR ages epigenetically.</jats:p>

DNA methylation clocks tick in naked mole rats but queens age more slowly than nonbreeders

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