2015
DOI: 10.4172/2329-8847.1000130
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Epigenetic Changes in Aging and Age-related Disease

Abstract: The epigenome refers to the complete set of heritable chemical modifications made to DNA and histone proteins. Certainly, the most well characterized epigenetic mark is the covalent addition of a methyl group to a CpG dinucleotide site in the genome. The DNA methylome-a collection of methyl marks established during embryogenesis-creates a complex regulatory network involved in cell type differentiation, homeostasis and regulating gene expression in response to environmental stimuli and stress throughout life. … Show more

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Cited by 7 publications
(4 citation statements)
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References 172 publications
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“…Since almost all living organisms contain a multitude of viruses which modify the host and evolve at a greater pace than the host genome [ 38 41 ], there can be no genetic program for handling all the possible scenarios of maladaptive conditions. A similar limitation applies to coping with individual-specific epigenetic drifts associated with aging [ 42 44 ] and recovering from other types of individual-specific lesions (e.g. microinfarcts in various tissues [ 45 , 46 ]).…”
Section: Hypothesismentioning
confidence: 99%
“…Since almost all living organisms contain a multitude of viruses which modify the host and evolve at a greater pace than the host genome [ 38 41 ], there can be no genetic program for handling all the possible scenarios of maladaptive conditions. A similar limitation applies to coping with individual-specific epigenetic drifts associated with aging [ 42 44 ] and recovering from other types of individual-specific lesions (e.g. microinfarcts in various tissues [ 45 , 46 ]).…”
Section: Hypothesismentioning
confidence: 99%
“…Genomic instability, aberrant gene expression, and the loss in chromatin structure are features of both aging and multifactorial diseases such as AD [76,77]. These alterations are intimately associated to epigenomic changes [78], and can be responsive to environmental influence [79]. Aging represents the main risk factor for AD and most tauopathies, hence, age-associated epigenetic alterations likely contribute to the structural and functional changes of the brain that lead to progressive cognitive deficits and possibly derived augmented susceptibility to neurodegenerative disorders such as AD and tauopathies [80,81].…”
Section: Age-dependent Changes Of Dna Methylation Marks and The Relevance For Ad And Tauopathiesmentioning
confidence: 99%
“…Aberrant gene expression, genomic instability, and the loss in chromatin structure are features of both aging and multifactorial or complex diseases such as AD [64,65]. These alterations are intimately associated to changes in the epigenome [66], and can be responsive to environmental influence [67]. As aging represents the main risk factor for AD and most tauopathies, it is conceivable that the epigenetic changes coming along with the aging process that affect brain function predispose for or are associated with AD and tauopathies.…”
Section: Age-dependent Changes Of Dna Methylation Signatures and The Relevance For Ad And Tauopathiesmentioning
confidence: 99%