SREL Reprint #3645
Exposure to ionizing radiation disrupts normal epigenetic aging in Japanese medaka
Emily M. Bertucci1,2, Marilyn W. Mason2, Olin E. Rhodes1,2, and Benjamin B. Parrott1,2
1Odum School of Ecology, University of Georgia, Athens, GA 30602, USA
2Savannah River Ecology Laboratory, University of Georgia, Aiken, SC 29802, USA
Abstract: Alterations to the epigenome are a hallmark of biological aging and age-dependent patterning of the DNA methylome (“epigenetic aging”) can be modeled to produce epigenetic age predictors. Rates of epigenetic aging vary amongst individuals and correlate to the onset of age-related disease and all-cause mortality. Yet, the origins of epigenetic-to-chronological age discordance are not empirically resolved. Here, we investigate the relationship between aging, DNA methylation, and environmental exposures in Japanese medaka (Oryzias latipes). We find age-associated DNA methylation patterning enriched in genomic regions of low CpG density and that, similar to mammals, most age-related changes occur during early life. We construct an epigenetic clock capable of predicting chronological age with a mean error of 61.1 days (~8.4% of average lifespan). To test the role of environmental factors in driving epigenetic age variation, we exposed medaka to chronic, environmentally relevant doses of ionizing radiation. Because most organisms share an evolutionary history with ionizing radiation, we hypothesized that exposure would reveal fundamental insights into environment-by-epigenetic aging interactions. Radiation exposure disrupted epigenetic aging by accelerating and decelerating normal age-associated patterning and was most pronounced in cytosines that were moderately associated with age. These findings empirically demonstrate the role of DNA methylation in integrating environmental factors into aging trajectories.
SREL Reprint #3645
Bertucci, E. M., M. W. Mason, O. E. Rhodes, and B. B. Parrott. 2021. Exposure to ionizing radiation disrupts normal epigenetic aging in Japanese medaka. Aging 13(19): 22752 - 22771.
This information was provided by the University of Georgia's Savannah River Ecology Laboratory (srel.uga.edu).