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W2022092714 abstract "Rat intestinal epithelial cells that express the cyclooxygenase-2 (COX-2) gene permanently (RIES cells) were used as a model of in vivo oxidative stress. A targeted lipidomics approach showed that 15(S)-hydroxyeicosatetraenoic acid (15(S)-HETE) was the major hydroxylated non-esterified lipid formed in unstimulated intact cells. The corresponding hydroperoxide, 15(S)-hydroperoxyeicosatetraenoic acid (15(S)-HPETE) undergoes homolytic decomposition to the DNA-reactive bifunctional electrophile 4-oxo-2(E)-nonenal, a precursor of heptanone-etheno-2′-deoxyguanosine. This etheno adduct was identified in the DNA of RIES cells. A dose-dependent increase in adduct levels was observed in the presence of vitamin C. This suggested that vitamin C increased lipid hydroperoxide-mediated 4-oxo-2(E)-nonenal formation in the cells. The selective COX-2 inhibitor NS-398 was protective against cellular DNA damage but was less effective if vitamin C was present. Prostaglandin E2 and 15(S)-HETE biosynthesis were completely inhibited by 110 μm NS-398 in the intact RIES cells. No inhibition of COX-1 was detected in the wild-type RIE cells at this concentration of NS-398. Arachidonic acid treatment of RIES cell lysates and ionophore stimulation of intact RIES cells produced significantly more 15(R)-HETE than the untreated intact cells. These preparations also both produced 11(R)-HETE, which was not detected in the intact cells. Aspirin treatment of the intact unstimulated RIES cells resulted in the exclusive formation of 15(R)-HETE in amounts that were slightly higher than the original 15(S)-HETE observed in the absence of aspirin, implying that significant amounts of 15(R)-HPETE had also been formed. 15(R)-HPETE should give exactly the same amount of heptanone-etheno-2′-deoxyguanosine as its 15(S)-enantiomer. However, no increase in heptanone-etheno adduct formation occurred in the aspirin-treated cells. The present study suggests a potential mechanism of tumorigenesis that involves DNA adduct formation from COX-2-mediated lipid peroxidation rather than prostaglandin formation. Therefore, inhibition of COX-2-mediated lipid hydroperoxide formation offers a potential therapeutic alternative to COX-2 inhibitors in chemoprevention strategies." @default.
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W2022092714 date "2005-08-01" @default.
W2022092714 modified "2023-09-29" @default.
W2022092714 title "Cyclooxygenase-2-mediated DNA Damage" @default.
W2022092714 cites W1520750411 @default.
W2022092714 cites W1529632581 @default.
W2022092714 cites W1536681507 @default.
W2022092714 cites W1555688393 @default.
W2022092714 cites W1660326086 @default.
W2022092714 cites W1967379791 @default.
W2022092714 cites W1968310022 @default.
W2022092714 cites W1968823817 @default.
W2022092714 cites W1973136693 @default.
W2022092714 cites W1974556160 @default.
W2022092714 cites W1978407431 @default.
W2022092714 cites W1985612603 @default.
W2022092714 cites W1986290379 @default.
W2022092714 cites W1988184619 @default.
W2022092714 cites W1991341537 @default.
W2022092714 cites W1991844540 @default.
W2022092714 cites W1991987072 @default.
W2022092714 cites W1994331461 @default.
W2022092714 cites W1995762364 @default.
W2022092714 cites W1999019867 @default.
W2022092714 cites W2003493239 @default.
W2022092714 cites W2003613002 @default.
W2022092714 cites W2004209406 @default.
W2022092714 cites W2010533134 @default.
W2022092714 cites W2015847583 @default.
W2022092714 cites W2020363398 @default.
W2022092714 cites W2022028992 @default.
W2022092714 cites W2023357794 @default.
W2022092714 cites W2024935267 @default.
W2022092714 cites W2028293189 @default.
W2022092714 cites W2028705982 @default.
W2022092714 cites W2031037036 @default.
W2022092714 cites W2043707891 @default.
W2022092714 cites W2044844250 @default.
W2022092714 cites W2048234380 @default.
W2022092714 cites W2049628560 @default.
W2022092714 cites W2049737988 @default.
W2022092714 cites W2050057935 @default.
W2022092714 cites W2052610894 @default.
W2022092714 cites W2054775930 @default.
W2022092714 cites W2055579966 @default.
W2022092714 cites W2055657997 @default.
W2022092714 cites W2057129789 @default.
W2022092714 cites W2058062187 @default.
W2022092714 cites W2060909573 @default.
W2022092714 cites W2061898510 @default.
W2022092714 cites W2070768836 @default.
W2022092714 cites W2074203890 @default.
W2022092714 cites W2075465787 @default.
W2022092714 cites W2082615396 @default.
W2022092714 cites W2087583098 @default.
W2022092714 cites W2088119521 @default.
W2022092714 cites W2088905899 @default.
W2022092714 cites W2127228589 @default.
W2022092714 cites W2129852694 @default.
W2022092714 cites W2130907702 @default.
W2022092714 cites W2151263304 @default.
W2022092714 cites W2151324279 @default.
W2022092714 cites W2159973565 @default.
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W2022092714 doi "https://doi.org/10.1074/jbc.m504178200" @default.
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