Ageing-associated DNA methylation dynamics are a molecular readout of lifespan variation among mammalian species

Ageing-associated DNA methylation dynamics are a molecular readout of lifespan variation among mammalian species

Mammalian species exhibit a wide range of lifespans. To date, a robust and dynamic molecular readout of these lifespan differences has not yet been identified. Recent studies have established the existence of ageing-associated differentially methylated positions (aDMPs) in human and mouse. These are...

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Published in:Genome Biology Vol. 19; no. 1; p. 22
Main Authors: Lowe, Robert, Barton, Carl, Jenkins, Christopher A, Ernst, Christina, Forman, Oliver, Fernandez-Twinn, Denise S, Bock, Christoph, Rossiter, Stephen J, Faulkes, Chris G, Ozanne, Susan E, Walter, Lutz, Odom, Duncan T, Mellersh, Cathryn, Rakyan, Vardhman K
Format: Journal Article
Language:English
Published: England BioMed Central 16-02-2018
BMC
Subjects:
Age
Ageing
Aging
Aging - genetics
Animals
Bioinformatics
Cancer
Chromosome 21
CpG islands
Deoxyribonucleic acid
DNA
DNA Methylation
Dogs
Epigenetics
Genomes
Genomics
Humans
Life span
Longevity - genetics
Mammals - genetics
Methylation
Mice
Species
Whales & whaling
Epigenetics
Methylation
Ageing
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Summary:Mammalian species exhibit a wide range of lifespans. To date, a robust and dynamic molecular readout of these lifespan differences has not yet been identified. Recent studies have established the existence of ageing-associated differentially methylated positions (aDMPs) in human and mouse. These are CpG sites at which DNA methylation dynamics show significant correlations with age. We hypothesise that aDMPs are pan-mammalian and are a dynamic molecular readout of lifespan variation among different mammalian species. A large-scale integrated analysis of aDMPs in six different mammals reveals a strong negative relationship between rate of change of methylation levels at aDMPs and lifespan. This relationship also holds when comparing two different dog breeds with known differences in lifespans. In an ageing cohort of aneuploid mice carrying a complete copy of human chromosome 21, aDMPs accumulate far more rapidly than is seen in human tissues, revealing that DNA methylation at aDMP sites is largely shaped by the nuclear trans-environment and represents a robust molecular readout of the ageing cellular milieu. Overall, we define the first dynamic molecular readout of lifespan differences among mammalian species and propose that aDMPs will be an invaluable molecular tool for future evolutionary and mechanistic studies aimed at understanding the biological factors that determine lifespan in mammals.
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ISSN:1474-760X
1474-7596
1474-760X
DOI:10.1186/s13059-018-1397-1