Michele Zampieri scite author profile

A complex interplay between multiple biological effects shapes the aging process. The advent of genome-wide quantitative approaches in the epigenetic field has highlighted the effective impact of epigenetic deregulation, particularly of DNA methylation, on aging. Age-associated alterations in DNA methylation are commonly grouped in the phenomenon known as "epigenetic drift" which is characterized by gradual extensive demethylation of genome and hypermethylation of a number of promoter-associated CpG islands. Surprisingly, specific DNA regions show directional epigenetic changes in aged individuals suggesting the importance of these events for the aging process. However, the epigenetic information obtained until now in aging needs a re-consideration due to the recent discovery of 5-hydroxymethylcytosine, a new DNA epigenetic mark present on genome. A recapitulation of the factors involved in the regulation of DNA methylation and the changes occurring in aging will be described in this review also considering the data available on 5 hmC.

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Epigenetics: poly(ADP‐ribosyl)ation of PARP‐1 regulates genomic methylation patterns

Caiafa

2008

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In the postgenome era, attention is being focused on those epigenetic modifications that modulate chromatin structure to guarantee that information present on DNA is read correctly and at the most appropriate time to meet cellular requirements. Data reviewed show that along the chain of events that induce DNA methylation-dependent chromatin condensation/decondensation, a postsynthetic modification other than histone acetylation, phosphorylation, and methylation--namely poly(ADP-ribosyl)ation (PARylation)--participates in the establishment and maintenance of a genome methylation pattern. We hypothesize that the right nuclear balance between unmodified and PARylated poly(ADP-ribose) polymerase 1 (PARP-1), which depends on the dynamics of PARPs/PARG activity, is key to maintaining genomic methylation pattern. According to our data, decreased or increased levels of PARylated PARP-1 are responsible for diffuse hypermethylation or hypomethylation of DNA, respectively. In our model, polymers present on PARP-1 interact noncovalently with DNA methyltransferase 1 (Dnmt1), preventing its enzymatic activity. In the absence of PARylated PARP-1, Dnmt1 is free to methylate DNA; if, in contrast, high levels of PARylated PARP-1 persist, Dnmt1 will be stably inhibited, preventing DNA methylation.

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Michele Zampieri

Reconfiguration of DNA methylation in aging

Epigenetics: poly(ADP‐ribosyl)ation of PARP‐1 regulates genomic methylation patterns

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