Mitochondrial DNA damage patterns and aging: revising the evidences for humans and mice

doi:10.14336/AD.2013.0400337

Review

. 2013 Sep 24;4(6):337-50.

doi: 10.14336/AD.2013.0400337.

Mitochondrial DNA damage patterns and aging: revising the evidences for humans and mice

Nadiya Kazachkova¹, Amanda Ramos, Cristina Santos, Manuela Lima

Affiliations

Affiliation

¹ Centre of Research in Natural Resources (CIRN), Department of Biology, University of the Azores, Ponta Delgada, Portugal ; Institute for Molecular and Cell Biology (IBMC), University of Porto, Porto, Portugal.

PMID: 24307967
PMCID: PMC3843651
DOI: 10.14336/AD.2013.0400337

Review

Mitochondrial DNA damage patterns and aging: revising the evidences for humans and mice

Nadiya Kazachkova et al. Aging Dis. 2013.

. 2013 Sep 24;4(6):337-50.

doi: 10.14336/AD.2013.0400337.

Authors

Nadiya Kazachkova¹, Amanda Ramos, Cristina Santos, Manuela Lima

Affiliation

¹ Centre of Research in Natural Resources (CIRN), Department of Biology, University of the Azores, Ponta Delgada, Portugal ; Institute for Molecular and Cell Biology (IBMC), University of Porto, Porto, Portugal.

PMID: 24307967
PMCID: PMC3843651
DOI: 10.14336/AD.2013.0400337

Abstract

A significant body of work, accumulated over the years, strongly suggests that damage in mitochondrial DNA (mtDNA) contributes to aging in humans. Contradictory results, however, are reported in the literature, with some studies failing to provide support to this hypothesis. With the purpose of further understanding the aging process, several models, among which mouse models, have been frequently used. Although important affinities are recognized between humans and mice, differences on what concerns physiological properties, disease pathogenesis as well as life-history exist between the two; the extent to which such differences limit the translation, from mice to humans, of insights on the association between mtDNA damage and aging remains to be established. In this paper we revise the studies that analyze the association between patterns of mtDNA damage and aging, investigating putative alterations in mtDNA copy number as well as accumulation of deletions and of point mutations. Reports from the literature do not allow the establishment of a clear association between mtDNA copy number and age, either in humans or in mice. Further analysis, using a wide spectrum of tissues and a high number of individuals would be necessary to elucidate this pattern. Likewise humans, mice demonstrated a clear pattern of age-dependent and tissue-specific accumulation of mtDNA deletions. Deletions increase with age, and the highest amount of deletions has been observed in brain tissues both in humans and mice. On the other hand, mtDNA point mutations accumulation has been clearly associated with age in humans, but not in mice. Although further studies, using the same methodologies and targeting a larger number of samples would be mandatory to draw definitive conclusions, the revision of the available data raises concerns on the ability of mouse models to mimic the mtDNA damage patterns of humans, a fact with implications not only for the study of the aging process, but also for investigations of other processes in which mtDNA dysfunction is a hallmark, such as neurodegeneration.

Keywords: aging; copy number; damage patterns; deletion; mtDNA; point mutation.

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Figures

**Figure 1**
Map of the mitochondrial genome. A) *Homo sapiens* (NC_012920), B) *Musmusculus* (NC_005089). Performed with Geneious version 6.1 created by Biomatters. Available: http://www.geneious.com

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References

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[1] Trifunovic A, Larsson NG. Mitochondrial dysfunction as a cause of ageing. Journal of internal medicine. 2008;263:167–178. - PubMed

[2] Trifunovic A, Larsson NG. Mitochondrial dysfunction as a cause of ageing. Journal of internal medicine. 2008;263:167–178. - PubMed

[3] Bratic A, Larsson NG. The role of mitochondria in aging. The Journal of clinical investigation. 2013;123:951–957. - PMC - PubMed

[4] Bratic A, Larsson NG. The role of mitochondria in aging. The Journal of clinical investigation. 2013;123:951–957. - PMC - PubMed

[5] Gomez-Cabrera MC, Sanchis-Gomar F, Garcia-Valles R, Pareja-Galeano H, Gambini J, Borras C, Vina J. Mitochondria as sources and targets of damage in cellular aging. Clinical chemistry and laboratory medicine : CCLM / FESCC. 2012;50:1287–1295. - PubMed

[6] Gomez-Cabrera MC, Sanchis-Gomar F, Garcia-Valles R, Pareja-Galeano H, Gambini J, Borras C, Vina J. Mitochondria as sources and targets of damage in cellular aging. Clinical chemistry and laboratory medicine : CCLM / FESCC. 2012;50:1287–1295. - PubMed

[7] Kennedy SR, Loeb LA, Herr AJ. Somatic mutations in aging, cancer and neurodegeneration. Mechanisms of ageing and development. 2012;133:118–126. - PMC - PubMed

[8] Kennedy SR, Loeb LA, Herr AJ. Somatic mutations in aging, cancer and neurodegeneration. Mechanisms of ageing and development. 2012;133:118–126. - PMC - PubMed

[9] Harman D. Aging: a theory based on free radical and radiation chemistry. J Gerontol. 1956;11:298–300. - PubMed

[10] Harman D. Aging: a theory based on free radical and radiation chemistry. J Gerontol. 1956;11:298–300. - PubMed

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Mitochondrial DNA damage patterns and aging: revising the evidences for humans and mice

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Mitochondrial DNA damage patterns and aging: revising the evidences for humans and mice

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