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Persistent accumulation of unrepaired DNA damage in rat cortical neurons: nuclear organization and ChIP-seq analysis of damaged DNA

Abstract: Neurons are highly vulnerable to DNA damage induced by genotoxic agents such as topoisomerase activity, oxidative stress, ionizing radiation (IR) and chemotherapeutic drugs. To avert the detrimental effects of DNA lesions in genome stability, transcription and apoptosis, neurons activate robust DNA repair mechanisms. However, defective DNA repair with accumulation of unrepaired DNA are at the basis of brain ageing and several neurodegenerative diseases. Understanding the mechanisms by which neurons tolerate DNA damage accumulation as well as defining the genomic regions that are more vulnerable to DNA damage or refractory to DNA repair and therefore constitute potential targets in neurodegenerative diseases are essential issues in the field. In this work we investigated the nuclear topography and organization together with the genome-wide distribution of unrepaired DNA in rat cortical neurons 15 days upon IR. About 5% of non-irradiated and 55% of irradiated cells accumulate unrepaired DNA within persistent DNA damage foci (PDDF) of chromatin. These PDDF are featured by persistent activation of DNA damage/repair signaling, lack of transcription and localization in repressive nuclear microenvironments. Interestingly, the chromatin insulator CTCF is concentrated at the PDDF boundaries, likely contributing to isolate unrepaired DNA from intact transcriptionally active chromatin. By confining damaged DNA, PDDF would help preserving genomic integrity and preventing the production of aberrant proteins encoded by damaged genes.ChIP-seq analysis of genome-wide ?H2AX distribution revealed a number of genomic regions enriched in ?H2AX signal in IR-treated cortical neurons. Some of these regions are in close proximity to genes encoding essential proteins for neuronal functions and human neurodegenerative disorders such as epm2a (Lafora disease), serpini1 (familial encephalopathy with neuroserpin inclusion bodies) and il1rpl1 (mental retardation, X-linked 21). Persistent ?H2AX signal close to those regions suggests that nearby genes could be either more vulnerable to DNA damage or more refractory to DNA repair.

 Autoría: Mata-Garrido J., Tapia O., Casafont I., Berciano M.T., Cuadrado A., Lafarga M.,

 Fuente: Acta Neuropathologica Communications, 2018, 6(1), 68

 Editorial: BioMed Central

 Año de publicación: 2018

 Nº de páginas: 15

 Tipo de publicación: Artículo de Revista

 DOI: 10.1186/s40478-018-0573-6

 ISSN: 2051-5960

 Proyecto español: BFU2014-54754-P

 Url de la publicación: https://doi.org/10.1186/s40478-018-0573-6

Autoría

JORGE MATA GARRIDO

OLGA TAPIA MARTINEZ

MARIA TERESA BERCIANO BLANCO