Mitochondrial DNA insertions into nuclear DNA affecting chromosome segregation: Insights for a novel mechanism of immunosenescence in mice

Mitochondrial DNA sequences were found inserted in the nuclear genome of mouse peritoneal T lymphocytes that increased progressively with aging. These insertions were preferentially located at the pericentromeric heterochromatin. In the same individuals, binucleated T-cells with micronuclei showed a...

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Bibliographic Details
Published in:Mechanisms of ageing and development 2022-10, Vol.207, p.111722-111722, Article 111722
Main Authors: González-Sánchez, Mónica, García-Martínez, Víctor, Bravo, Sara, Kobayashi, Hikaru, Martínez de Toda, Irene, González-Bermúdez, Blanca, Plaza, Gustavo R., De la Fuente, Mónica
Format: Article
Language:English
Subjects:
Immunosenescence
Lymphoproliferation
Micronuclei
MtDNA
NUMTs
Oxidative stress
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Summary:Mitochondrial DNA sequences were found inserted in the nuclear genome of mouse peritoneal T lymphocytes that increased progressively with aging. These insertions were preferentially located at the pericentromeric heterochromatin. In the same individuals, binucleated T-cells with micronuclei showed a significantly increased frequency associated with age. Most of them were positive for centromere sequences, reflecting the loss of chromatids or whole chromosomes. The proliferative capacity of T lymphocytes decreased with age as well as the glutathione reductase activity, whereas the oxidized glutathione and malondialdehyde concentrations exhibited a significant increase. These results may point to a common process that provides insights for a new approach to understanding immunosenescence. We propose a novel mechanism in which mitochondrial fragments, originated by the increased oxidative stress status during aging, accumulate inside the nuclear genome of T lymphocytes in a time-dependent way. The primary entrance of mitochondrial fragments at the pericentromeric regions may compromise chromosome segregation, causing genetic loss that leads to micronuclei formation, rendering aneuploid cells with reduced proliferation capacity, one of the hallmark of immunosenescence. Future experiments deciphering the mechanistic basis of this phenomenon are needed. •Mitochondrial sequences in mouse T-lymphocytes nuclei increase with age.•Mitochondrial DNA insertions are preferentially located at centromeres.•Chromosome segregation is affected leading to micronuclei formation.•Aneuploid T lymphocytes show reduced proliferation.
ISSN:0047-6374
1872-6216
DOI:10.1016/j.mad.2022.111722