Ageing-associated changes in the human DNA methylome: genomic locations and effects on gene expression
Marttila, Saara; Kananen, Laura; Häyrynen, Sergei; Jylhävä, Juulia; Nevalainen, Tapio; Hervonen, Antti; Jylhä, Marja; Nykter, Matti; Hurme, Mikko (2015)
Marttila, Saara
Kananen, Laura
Häyrynen, Sergei
Jylhävä, Juulia
Nevalainen, Tapio
Hervonen, Antti
Jylhä, Marja
Nykter, Matti
Hurme, Mikko
2015
BMC Genomics 16
179
BioMediTech - BioMediTech
Lääketieteen yksikkö - School of Medicine
Terveystieteiden yksikkö - School of Health Sciences
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:uta-201504211335
https://urn.fi/URN:NBN:fi:uta-201504211335
Kuvaus
BioMed Central open acess
Tiivistelmä
Background
Changes in DNA methylation are among the mechanisms contributing to the ageing process. We sought to identify ageing-associated DNA methylation changes at single-CpG-site resolution in blood leukocytes and to ensure that the observed changes were not due to differences in the proportions of leukocytes. The association between DNA methylation changes and gene expression levels was also investigated in the same individuals.
Results
We identified 8540 high-confidence ageing-associated CpG sites, 46% of which were hypermethylated in nonagenarians. The hypermethylation-associated genes belonged to a common category: they were predicted to be regulated by a common group of transcription factors and were enriched in a related set of GO terms and canonical pathways. Conversely, for the hypomethylation-associated genes only a limited set of GO terms and canonical pathways were identified. Among the 8540 CpG sites associated with ageing, methylation level of 377 sites was also associated with gene expression levels. These genes were enriched in GO terms and canonical pathways associated with immune system functions, particularly phagocytosis.
Conclusions
We find that certain ageing-associated immune-system impairments may be mediated via changes in DNA methylation. The results also imply that ageing-associated hypo- and hypermethylation are distinct processes: hypermethylation could be caused by programmed changes, whereas hypomethylation could be the result of environmental and stochastic processes.
Changes in DNA methylation are among the mechanisms contributing to the ageing process. We sought to identify ageing-associated DNA methylation changes at single-CpG-site resolution in blood leukocytes and to ensure that the observed changes were not due to differences in the proportions of leukocytes. The association between DNA methylation changes and gene expression levels was also investigated in the same individuals.
Results
We identified 8540 high-confidence ageing-associated CpG sites, 46% of which were hypermethylated in nonagenarians. The hypermethylation-associated genes belonged to a common category: they were predicted to be regulated by a common group of transcription factors and were enriched in a related set of GO terms and canonical pathways. Conversely, for the hypomethylation-associated genes only a limited set of GO terms and canonical pathways were identified. Among the 8540 CpG sites associated with ageing, methylation level of 377 sites was also associated with gene expression levels. These genes were enriched in GO terms and canonical pathways associated with immune system functions, particularly phagocytosis.
Conclusions
We find that certain ageing-associated immune-system impairments may be mediated via changes in DNA methylation. The results also imply that ageing-associated hypo- and hypermethylation are distinct processes: hypermethylation could be caused by programmed changes, whereas hypomethylation could be the result of environmental and stochastic processes.
Kokoelmat
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