AI Article Synopsis
- 8-Hydroxyguanine (8-OH-G) is a harmful genetic lesion caused by reactive oxygen species, and the Mmh/Ogg1 gene is crucial for its repair through the base excision pathway.
- A study involving Ogg1 mutant mice treated with potassium bromate (KBrO(3)) showed that while Apurinic site lyase activity remained unchanged, 8-OH-G levels soared in kidney DNA, especially in Ogg1(-/-) mice, where levels were dramatically higher compared to Ogg1(+/+) mice.
- The increase in 8-OH-G led to higher mutation frequencies, particularly GC-->TA transversions, indicating that chronic oxidative stress significantly impairs genetic repair mechanisms in O
Article Abstract
8-Hydroxyguanine (8-OH-G) is a major pre-mutagenic lesion generated from reactive oxygen species. The Mmh/Ogg1 gene product plays a major role in maintaining genetic integrity by removing 8-OH-G by way of the base excision repair pathway. To investigate how oxidative stress influences the formation of 8-OH-G in Ogg1 mutant mice, a known oxidative agent, potassium bromate (KBrO(3)), was administered at a dose of 2 g/l in the drinking water to Ogg1(+/+), Ogg1(+/-) and Ogg1(-/-) mice for 12 weeks. Apurinic (AP) site lyase activity, measured by the excision of 8-OH-G from synthetic oligonucleotides, remained unchanged in kidney cell extracts isolated from Ogg1 mutant mice when the mice were pre-treated by KBrO(3). The levels of 8-OH-G in kidney DNA tremendously increased in a time-dependent manner following exposure of Ogg1(-/-) mice to KBrO(3). Of particular note, the amount of 8-OH-G in kidney DNA from Ogg1(-/-) mice treated with KBrO(3) was approximately 70 times that of KBrO(3)-treated Ogg1(+/+) mice. The accumulated 8-OH-G did not decrease 4 weeks after discontinuing treatment with KBrO(3). KBrO(3) treatment for 12 weeks gave rise to increased mutation frequencies at the transgenic gpt gene in Ogg1(+/+) mice kidney. Absence of the Ogg1 gene further enhanced the mutation frequency. Sequence data obtained from gpt mutants showed that the accumulated 8-OH-G caused mainly GC-->TA transversion and deletion. Other mutations including GC-->AT transition also showed a tendency to increase. These results indicate that 8-OH-G, produced by chronic exposure to exogenous oxidative stress agents, is not repaired to any significant extent within the overall genome of Ogg1(-/-) mice kidney.
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| http://dx.doi.org/10.1093/carcin/23.12.2005 | DOI Listing |
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