2007
DOI: 10.1016/j.mad.2007.09.005
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Increased ROS generation in subsets of OGG1 knockout fibroblast cells

Abstract: Oxoguanine DNA glycosylase (OGG1) is a major base excision repair protein responsible for excision of the mutagenic 8-oxoguanosine (8-oxoG) lesions from the genome. Despite OGG1's importance, the moderate phenotype of Ogg1-null (Ogg1 −/− ) mice is not well understood. This study addresses a mechanism by which Ogg1 −/− cells limit accumulation of 8-oxoG in their genome. Our data reveal that a subset of Ogg1 −/− cells shows higher ROS levels ( H ROS cells), while ~85% of Ogg1 −/− cells exhibit physiological leve… Show more

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Cited by 35 publications
(42 citation statements)
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“…Notably, overexpression of mitochondrial aconitase eliminated oxidant induced AEC apoptosis whereas Ogg1 underexpression using shRNA techniques reduced basal mitochondrial aconitase levels and augmented oxidant-induced AEC apoptosis (Panduri et al, 2009). These latter findings are in accord with several recent studies showing that Ogg1 deficiency increases oxidant-induced apoptosis (Youn et al, 2007;Bacsi et al, 2007;Xie et al, 2008). Collectively, these results suggest a novel interaction between an mtDNA repair enzyme (mt-Ogg1) and aconitase in preventing intrinsic AEC apoptosis following exposure to oxidative stress (e.g.…”
Section: Aconitase and Mitochondrial Dnasupporting
confidence: 91%
“…Notably, overexpression of mitochondrial aconitase eliminated oxidant induced AEC apoptosis whereas Ogg1 underexpression using shRNA techniques reduced basal mitochondrial aconitase levels and augmented oxidant-induced AEC apoptosis (Panduri et al, 2009). These latter findings are in accord with several recent studies showing that Ogg1 deficiency increases oxidant-induced apoptosis (Youn et al, 2007;Bacsi et al, 2007;Xie et al, 2008). Collectively, these results suggest a novel interaction between an mtDNA repair enzyme (mt-Ogg1) and aconitase in preventing intrinsic AEC apoptosis following exposure to oxidative stress (e.g.…”
Section: Aconitase and Mitochondrial Dnasupporting
confidence: 91%
“…Furthermore, we found a higher frequency (Fig. 6B, compare Increased Susceptibility of Neil2-null Mice to InflammationPrevious reports have indicated that Ogg1-null mice have decreased susceptibility to LPS-induced and oxidative stressinduced inflammation (44,45) and also to allergic immune responses (46,47). To address the susceptibility of Neil2-null mice to inflammation, animals were challenged intranasally with LPS (100 ng/per lung) or TNF-␣ (20 ng/lung) or GOx (1 milliunit/lung).…”
Section: Neil2 Is Required For Maintaining Telomere Length Homeostasimentioning
confidence: 54%
“…OGG1 is a DNA glycosylase with bifunctional activity that plays a critical role in both nuclear and mitochondrial oxidative DNA repair (34), and likely acts directly to control the accumulation of oxidized DNA. Although OGG1 null mice do not have a distinct phenotype and are only moderately more susceptible to cancer (35), OGG1-deficient fibroblasts exhibit an increased generation of ROS (36) and an enhanced sensitivity to DNA damage in response to oxidative stress (37). Our knockdown studies clearly show that nucleic-acid oxidation is increased at both the basal state and after exposure to CSE in human lung fibroblasts.…”
Section: Discussionmentioning
confidence: 72%