Literature DB >> 35145299

The threat of programmed DNA damage to neuronal genome integrity and plasticity.

Keith W Caldecott1, Michael E Ward2, André Nussenzweig3.   

Abstract

The neuronal genome is particularly sensitive to loss or attenuation of DNA repair, and many neurological diseases ensue when DNA repair is impaired. It is well-established that the neuronal genome is subjected to stochastic DNA damage, most likely because of extensive oxidative stress in the brain. However, recent studies have identified unexpected high levels of 'programmed' DNA breakage in neurons, which we propose arise during physiological DNA metabolic processes intrinsic to neuronal development, differentiation and maintenance. The role of programmed DNA breaks in normal neuronal physiology and disease remains relatively unexplored thus far. However, bulk and single-cell sequencing analyses of neurodegenerative diseases have revealed age-related somatic mutational signatures that are enriched in regulatory regions of the genome. Here, we explore a paradigm of DNA repair in neurons, in which the genome is safeguarded from erroneous impacts of programmed genome breakage intrinsic to normal neuronal function.
© 2022. This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply.

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Year:  2022        PMID: 35145299     DOI: 10.1038/s41588-021-01001-y

Source DB:  PubMed          Journal:  Nat Genet        ISSN: 1061-4036            Impact factor:   41.307


  98 in total

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Journal:  Nat Rev Genet       Date:  2008-08       Impact factor: 53.242

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Journal:  Front Mol Biosci       Date:  2019-12-10
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  3 in total

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Journal:  Mol Cytogenet       Date:  2022-10-21       Impact factor: 1.904

2.  Structure of an Intranucleosomal DNA Loop That Senses DNA Damage during Transcription.

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3.  Hotspots of single-strand DNA "breakome" are enriched at transcriptional start sites of genes.

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  3 in total

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