An Oxidative Damage-specific Endonuclease from Rat Liver Mitochondria

Croteau, Deborah L.; Rhys, Colette M.J. ap; Hudson, Edgar K.; Dianov, Grigory L.; Hansford, Richard G.; Bohr, Vilhelm A.

doi:10.1074/jbc.272.43.27338

Cited by 147 publications

(85 citation statements)

References 47 publications

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“…Monoamine oxidase activity was located in the outer membrane fraction whereas the majority of the malate dehydrogenase activity was detected in the matrix fraction (Table 1). A similar overflow of marker enzyme activities were found present in the sub-mitochondrial preparations of others (38) and may be due in part to the presence of other enzymes utilizing the substrates. Nevertheless, the location of the marker enzymes showed that the fractionation was effective.…”

Section: A/8-oxog Mismatch Binding Activity Is Located In the Mitochomentioning

confidence: 50%

“…It has been shown that DNA lesions caused by oxidative damage, in particular 8-oxoG, induced in Chinese hamster ovary cells are rapidly removed from the mitochondrial genome suggesting the presence of a 8-oxoG glycosylase/AP lyase (OGG1) (37). Croteau et al partially purified a 25-30 kDa base excision endonuclease that preferentially cleaved C/8-oxoG mismatches but not A/G or A/8-oxoG (38). These OGG1 or MutM-like activities are consistent with several processed forms of OGG1 enzyme being localized to the mitochondrion from a single gene (39).…”

Section: Introductionmentioning

confidence: 62%

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Purification and characterization of a mammalian homolog of Escherichia coli MutY mismatch repair protein from calf liver mitochondria

Parker

2000

Nucleic Acids Research

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A protein homologous to the Escherichia coli MutY glycosylase, referred to as mtMYH, has been purified from calf liver mitochondria. SDS-polyacrylamide gel electrophoresis, western blot analysis as well as gel filtration chromatography predicted the molecular mass of the purified calf mtMYH to be 35-40 kDa. Gel mobility shift analysis showed that the purified mtMYH formed specific binding complexes with A/8-oxoG, G/8-oxoG and T/8-oxoG, weakly with C/8-oxoG, but not with A/G and A/C mismatches. The purified mtMYH exhibited DNA glycosylase activity removing adenine mispaired with G, C or 8-oxoG and weakly removing guanine mispaired with 8-oxoG. The mtMYH glycosylase activity was insensitive to high concentrations of NaCl and EDTA. The purified mtMYH cross-reacted with antibodies against both intact MutY and a peptide of human MutY homolog (hMYH). DNA glycosylase activity of mtMYH was inhibited by anti-MutY antibodies but not by antihMYH peptide antibodies. Together with the previously described mitochondrial MutT homolog (MTH1) and 8-oxoG glycosylase (OGG1, a functional MutM homolog), mtMYH can protect mitochondrial DNA from the mutagenic effects of 8-oxoG.

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Section: A/8-oxog Mismatch Binding Activity Is Located In the Mitochomentioning

confidence: 50%

Section: Introductionmentioning

confidence: 62%

Purification and characterization of a mammalian homolog of Escherichia coli MutY mismatch repair protein from calf liver mitochondria

Parker

2000

Nucleic Acids Research

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“…Mitochondrial BER has been demonstrated by numerous groups and shown to target oxidatively modified DNA bases, such as 8-oxoG and thymine glycol (29)(30)(31)(32)(33)(34)36,37). DNA repair enzymes isolated from mitochondria include several types of damage-specific DNA glycosylases (36)(37)(38)(39), AP endonuclease (40), and DNA ligase (41,42).…”

Section: Mitochondrial Dna Damage and Repairmentioning

confidence: 99%

“…DNA repair enzymes isolated from mitochondria include several types of damage-specific DNA glycosylases (36)(37)(38)(39), AP endonuclease (40), and DNA ligase (41,42). DNA glycosylases that are expressed as nuclear and mitochondrial isoforms encoded by the same gene, include uracil DNA-glycosylase (UDG) (43), and 8-oxoG DNA glycosylase/AP lyase (OGG) (44).…”

Section: Mitochondrial Dna Damage and Repairmentioning

confidence: 99%

Mitochondrial DNA repair in aging and disease

Druzhyna

Wilson

LeDoux

2008

Mechanisms of Ageing and Development

170

134

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“…Several other repair enzymes have been detected in mammalian mitochondda, including a methyltransferase (134), an AP endonuclease (159), and an 8-oxo-dG glycosylase termed mtODE, for mitochondrial oxidative damage endonuclease (160). The latter enzyme excises 8-oxo-dG when it is paired with dC, but not when it is paired with dA.…”

Section: Mitochondrial Repair Proteinsmentioning

confidence: 99%

Mitochondria, oxidative DNA damage, and aging

Anson

Bohr

2000

AGE

Self Cite

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Protection from reactive oxygen species (ROS) and from mitochondrial oxidative damage is well known to be necessary to longevity. The relevance of mitochondrial DNA (mtDNA) to aging is suggested by the fact that the two most commonly measured forms of mtDNA damage, deletions and the oxidatively induced lesion 8-oxo-dG, increase with age. The rate of increase is species-specific and correlates with maximum lifespan.It is less clear that failure or inadequacies in the protection from reactive oxygen species (ROS) and from mitochondrial oxidative damage are sufficient to explain senescence. DNA containing 8-oxo-dG is repaired by mitochondria, and the high ratio of mitochondrial to nuclear levels of 8-oxo-dG previously reported are now suspected to be due to methodological difficulties. Furthermore, MnSOD -/+ mice incur higher than wild type levels of oxidative damage, but do not display an aging phenotype. Together, these findings suggest that oxidative damage to mitochondria is lower than previously thought, and that higher levels can be tolerated without physiological consequence.A great deal of work remains before it will be known whether mitochondrial oxidative damage is a "clock" which controls the rate of aging. The increased level of 8-oxo-dG seen with age in isolated mitochondria needs explanation. It could be that a subset of cells lose the ability to protect or repair mitochondria, resulting in their incurring disproportionate levels of damage. Such an uneven distribution could exceed the reserve capacity of these cells and have serious physiological consequences.

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An Oxidative Damage-specific Endonuclease from Rat Liver Mitochondria

Cited by 147 publications

References 47 publications

Purification and characterization of a mammalian homolog of Escherichia coli MutY mismatch repair protein from calf liver mitochondria

Purification and characterization of a mammalian homolog of Escherichia coli MutY mismatch repair protein from calf liver mitochondria

Mitochondrial DNA repair in aging and disease

Mitochondria, oxidative DNA damage, and aging

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