BackgroundAge-associated epigenetic changes are implicated in aging. Notably, age-associated DNA methylation changes comprise a so-called aging “clock”, a robust biomarker of aging. However, while genetic, dietary and drug interventions can extend lifespan, their impact on the epigenome is uncharacterised. To fill this knowledge gap, we defined age-associated DNA methylation changes at the whole-genome, single-nucleotide level in mouse liver and tested the impact of longevity-promoting interventions, specifically the Ames dwarf Prop1 df/df mutation, calorie restriction and rapamycin.ResultsIn wild-type mice fed an unsupplemented ad libitum diet, age-associated hypomethylation was enriched at super-enhancers in highly expressed genes critical for liver function. Genes harbouring hypomethylated enhancers were enriched for genes that change expression with age. Hypermethylation was enriched at CpG islands marked with bivalent activating and repressing histone modifications and resembled hypermethylation in liver cancer. Age-associated methylation changes are suppressed in Ames dwarf and calorie restricted mice and more selectively and less specifically in rapamycin treated mice.ConclusionsAge-associated hypo- and hypermethylation events occur at distinct regulatory features of the genome. Distinct longevity-promoting interventions, specifically genetic, dietary and drug interventions, suppress some age-associated methylation changes, consistent with the idea that these interventions exert their beneficial effects, in part, by modulation of the epigenome. This study is a foundation to understand the epigenetic contribution to healthy aging and longevity and the molecular basis of the DNA methylation clock.Electronic supplementary materialThe online version of this article (doi:10.1186/s13059-017-1185-3) contains supplementary material, which is available to authorized users.
Cellular senescence, a stable proliferation arrest caused by a range of cellular stresses, is a bona fide cause of cell and tissue aging. As well as proliferation arrest, cell senescence is associated with a potent pro-inflammatory phenotype, the senescence-associated secretory phenotype (SASP). Recent studies have shown the importance of cytoplasmic DNA and chromatin, either reverse transcribed expressed retrotransposons or cytoplasmic chromatin fragments (CCF) expelled from the nucleus, in activation of nuclear SASP gene expression via the cGAS/STING cytoplasmic DNA-sensing pathway. As a source of chronic inflammation, over the long term SASP promotes tissue aging and disease. Thus, it is important to better define the mechanism of SASP activation in senescence. We show here that both the Promyelocytic Leukemia (PML) protein and HIRA histone chaperone are required for SASP expression in senescent cells. PML protein is the key organizer of PML nuclear bodies, nuclear features up to 1 micron in diameter, containing many proteins and previously implicated in diverse cellular processes, including control of cell senescence and cellular intrinsic anti-viral immunity. HIRA is a histone chaperone best known for its ability to incorporate histone variant H3.3 into nuclear chromatin in a DNA replication-independent manner, including in non-proliferating senescent cells. HIRA localizes to PML nuclear bodies in senescent cells. We show that both HIRA and PML are required for activation of NF-kB and SASP. We found that HIRA regulates cytoplasmic NF-kB signaling in senescent cells through the CCF-cGAS-STING-TBK1 pathway. HIRA physically interacts with the autophagy cargo receptor p62 Sequestosome-1 (p62), and HIRA and p62 antagonistically regulate SASP. PML is required to maintain integrity of colocalized HIRA and p62 foci in the cell nucleus. Overall, our findings point to functions for HIRA and PML in coordination of cytoplasmic signalling and nuclear gene expression to regulate inflammation during cell senescence and aging.
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