Identification of a novel human mitochondrial endo-/exonuclease Ddk1/c20orf72 necessary for maintenance of proper 7S DNA levels

Szczęsny, Roman J.; Hejnowicz, Monika S.; Steczkiewicz, Kamil; Muszewska, Anna; Borowski, Lukasz S.; Ginalski, Krzysztof; Dziembowski, Andrzej

doi:10.1093/nar/gkt029

Cited by 41 publications

(80 citation statements)

References 88 publications

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“…MGME1 is a 37 kDa monomeric protein that is a mitochondrially-located, metal-dependent exonuclease (Szczesny et al, 2013). MGME1 belongs to the PD-(D/E)XK nuclease superfamily and is a close homologue of the bacterial RecB nuclease (Kornblum et al, 2013; Szczesny et al, 2013).…”

Section: Age-related Mitochondrial Diseases Associated With Defectmentioning

confidence: 99%

“…MGME1 belongs to the PD-(D/E)XK nuclease superfamily and is a close homologue of the bacterial RecB nuclease (Kornblum et al, 2013; Szczesny et al, 2013). MGME1 selectively degrades ssDNA in both 3′ → 5′ and 5′ → 3′ directions, preferring the latter (Kornblum et al, 2013; Szczesny et al, 2013). It can degrade DNA flap and RNA-DNA flaps (Kornblum et al, 2013; Szczesny et al, 2013), but not circular DNA (Kornblum et al, 2013).…”

Section: Age-related Mitochondrial Diseases Associated With Defectmentioning

confidence: 99%

“…MGME1 selectively degrades ssDNA in both 3′ → 5′ and 5′ → 3′ directions, preferring the latter (Kornblum et al, 2013; Szczesny et al, 2013). It can degrade DNA flap and RNA-DNA flaps (Kornblum et al, 2013; Szczesny et al, 2013), but not circular DNA (Kornblum et al, 2013). HeLa cells and patient fibroblasts with MGME1 knocked-down have increased amounts and lengths of 7S mtDNA (Nicholls et al, 2014).…”

Section: Age-related Mitochondrial Diseases Associated With Defectmentioning

confidence: 99%

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Role of the mitochondrial DNA replication machinery in mitochondrial DNA mutagenesis, aging and age-related diseases

DeBalsi

Hoff

Copeland

2017

Ageing Research Reviews

148

124

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As regulators of bioenergetics in the cell and the primary source of endogenous reactive oxygen species (ROS), dysfunctional mitochondria have been implicated for decades in the process of aging and age-related diseases. Mitochondrial DNA (mtDNA) is replicated and repaired by nuclear-encoded mtDNA polymerase γ (Pol γ) and several other associated proteins, which compose the mtDNA replication machinery. Here, we review evidence that errors caused by this replication machinery and failure to repair these mtDNA errors results in mtDNA mutations. Clonal expansion of mtDNA mutations results in mitochondrial dysfunction, such as decreased electron transport chain (ETC) enzyme activity and impaired cellular respiration. We address the literature that mitochondrial dysfunction, in conjunction with altered mitochondrial dynamics, is a major driving force behind aging and age-related diseases. Additionally, interventions to improve mitochondrial function and attenuate the symptoms of aging are examined.

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Section: Age-related Mitochondrial Diseases Associated With Defectmentioning

confidence: 99%

Section: Age-related Mitochondrial Diseases Associated With Defectmentioning

confidence: 99%

Section: Age-related Mitochondrial Diseases Associated With Defectmentioning

confidence: 99%

See 1 more Smart Citation

Role of the mitochondrial DNA replication machinery in mitochondrial DNA mutagenesis, aging and age-related diseases

DeBalsi

Hoff

Copeland

2017

Ageing Research Reviews

148

124

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“…Mammalian mitochondria contain a small number of endonucleases, including ENDOG (38,39), EXOG (27), apurinic-apyrimidinic endonucleases 1 and 2 (APEX1/2) (40-42), flap endonuclease 1 (FEN1) (43,44), DNA replication ATP-dependent helicase/nuclease (DNA2) (45), and the recently described endo/exonuclease Ddk1 (46). Of these, APEX1/2, FEN1, and DNA2 seemed unlikely to be involved in mtDNA loss provoked by UL12.5 since they act on specialized DNA substrates, while Ddk1 had not been discovered at the onset of our research.…”

Section: Figmentioning

confidence: 99%

Mitochondrial Nucleases ENDOG and EXOG Participate in Mitochondrial DNA Depletion Initiated by Herpes Simplex Virus 1 UL12.5

Duguay

Smiley

2013

J Virol

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Herpes simplex virus 1 (HSV-1) rapidly eliminates mitochondrial DNA (mtDNA) from infected cells, an effect that is mediated by UL12.5, a mitochondrial isoform of the viral alkaline nuclease UL12. Our initial hypothesis was that UL12.5 directly degrades mtDNA via its nuclease activity. However, we show here that the nuclease activities of UL12.5 are not required for mtDNA loss. This observation led us to examine whether cellular nucleases mediate the mtDNA loss provoked by UL12.5. We provide evidence that the mitochondrial nucleases endonuclease G (ENDOG) and endonuclease G-like 1 (EXOG) play key redundant roles in UL12.5-mediated mtDNA depletion. Overall, our data indicate that UL12.5 deploys cellular proteins, including ENDOG and EXOG, to destroy mtDNA and contribute to a growing body of literature highlighting roles for ENDOG and EXOG in mtDNA maintenance.

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“…If so, a high rate of initiation events from O H rarely results in synthesis through the TAS site. The terminated DNA is likely removed by the mitochondrial ssDNA nuclease MGME1 [133, 134]; MGME1 knockdown in cultured cells or MGME1 deficiency in human patients results in a large accumulation of 7S DNA [133, 134]. Pol γ appears to bind preferentially at O H in vivo , and at the site corresponding to the 3′-end of the 7S DNA, which suggests a mechanism for replisome restart from the latter [111].…”

Section: Mechanisms Of Mitochondrial Dna Replication In Vivomentioning

confidence: 99%

Animal Mitochondrial DNA Replication

Ciesielski

2016

The Enzymes

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Recent advances in the field of mitochondrial DNA (mtDNA) replication highlight the diversity of both the mechanisms utilized and the structural and functional organization of the proteins at mtDNA replication fork, despite the simplicity of the animal mtDNA genome. DNA polymerase γ, mtDNA helicase and mitochondrial single-stranded DNA-binding protein- the key replisome proteins, have evolved distinct structural features and biochemical properties. These appear to be correlated with mtDNA genomic features in different metazoan taxa and with their modes of DNA replication, although a substantial integrative research is warranted to establish firmly these links. To date, several modes of mtDNA replication have been described for animals: rolling circle, theta, strand-displacement, and RITOLS/bootlace. Resolution of a continuing controversy relevant to mtDNA replication in mammals/vertebrates will have a direct impact on the mechanistic interpretation of mtDNA-related human diseases. Here we review these subjects, integrating earlier and recent data to provide a perspective on the major challenges for future research.

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Identification of a novel human mitochondrial endo-/exonuclease Ddk1/c20orf72 necessary for maintenance of proper 7S DNA levels

Cited by 41 publications

References 88 publications

Role of the mitochondrial DNA replication machinery in mitochondrial DNA mutagenesis, aging and age-related diseases

Role of the mitochondrial DNA replication machinery in mitochondrial DNA mutagenesis, aging and age-related diseases

Mitochondrial Nucleases ENDOG and EXOG Participate in Mitochondrial DNA Depletion Initiated by Herpes Simplex Virus 1 UL12.5

Animal Mitochondrial DNA Replication

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