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dc.contributor.authorElliott, B
dc.contributor.authorDodd, Nicholas J F
dc.contributor.authorElcombe, C
dc.date.accessioned2010-11-22T18:00:05Z
dc.date.available2010-11-22T18:00:05Z
dc.date.issued1986-05
dc.identifier.citationIncreased hydroxyl radical production in liver peroxisomal fractions from rats treated with peroxisome proliferators. 1986, 7 (5):795-9 Carcinogenesisen
dc.identifier.issn0143-3334
dc.identifier.pmid3009047
dc.identifier.doi10.1093/carcin/7.5.795
dc.identifier.urihttp://hdl.handle.net/10541/116024
dc.description.abstractElectron spin resonance (e.s.r.), using the spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO), has been employed to measure hydroxyl radical production in liver peroxisome-enriched fractions isolated from male Alpk/Ap rats administered chemicals known to cause peroxisome proliferation. The DMPO-OH adduct was found to decay to an e.s.r. silent species so rapidly in the presence of the native peroxisome-enriched fraction as to preclude any measurements in this system. All of the experiments were therefore carried out in the presence of cyanide in order to visualise the DMPO-OH adducts, although a consequence of this was the inhibition of the peroxisomal catalase activity. The DMPO-OH adduct was identified in fractions from both control and treated animals in the presence of palmitoyl CoA as substrate and was found to be present at 3-4 times the control value in animals orally administered di(2-ethylhexyl)phthalate (2000 mg/kg), clofibrate (200 mg/kg) or methyl clofenapate (25 mg/kg) for 9 days. The rate of production of hydroxyl radicals was also greater in fractions from treated animals. The fatty acyl CoA oxidase system of liver peroxisome-enriched fractions has now been shown to produce increased levels of hydrogen peroxide and hydroxyl radicals in the presence of a suitable substrate. Despite such evidence from in vitro enzyme systems, evidence of genotoxicity in vivo is still required to confirm the hypothesis linking such reactive oxygen species to the carcinogenicity observed in rodents with certain peroxisome proliferators.
dc.language.isoenen
dc.subject.meshAnimals
dc.subject.meshAzides
dc.subject.meshCell Division
dc.subject.meshCyanides
dc.subject.meshCyclic N-Oxides
dc.subject.meshDNA
dc.subject.meshElectron Spin Resonance Spectroscopy
dc.subject.meshHydrogen Peroxide
dc.subject.meshHydroxides
dc.subject.meshHydroxyl Radical
dc.subject.meshLiver
dc.subject.meshMale
dc.subject.meshMicrobodies
dc.subject.meshPentetic Acid
dc.subject.meshRats
dc.subject.meshRats, Inbred Strains
dc.titleIncreased hydroxyl radical production in liver peroxisomal fractions from rats treated with peroxisome proliferators.en
dc.typeArticleen
dc.identifier.eissn1460-2180
dc.contributor.departmentImperial Chemical Industries PLC, Central Toxicology Laboratory Alderley Park, Nr Macclesfield, Cheshire, SK10 4TJen
dc.identifier.journalCarcinogenesisen
html.description.abstractElectron spin resonance (e.s.r.), using the spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO), has been employed to measure hydroxyl radical production in liver peroxisome-enriched fractions isolated from male Alpk/Ap rats administered chemicals known to cause peroxisome proliferation. The DMPO-OH adduct was found to decay to an e.s.r. silent species so rapidly in the presence of the native peroxisome-enriched fraction as to preclude any measurements in this system. All of the experiments were therefore carried out in the presence of cyanide in order to visualise the DMPO-OH adducts, although a consequence of this was the inhibition of the peroxisomal catalase activity. The DMPO-OH adduct was identified in fractions from both control and treated animals in the presence of palmitoyl CoA as substrate and was found to be present at 3-4 times the control value in animals orally administered di(2-ethylhexyl)phthalate (2000 mg/kg), clofibrate (200 mg/kg) or methyl clofenapate (25 mg/kg) for 9 days. The rate of production of hydroxyl radicals was also greater in fractions from treated animals. The fatty acyl CoA oxidase system of liver peroxisome-enriched fractions has now been shown to produce increased levels of hydrogen peroxide and hydroxyl radicals in the presence of a suitable substrate. Despite such evidence from in vitro enzyme systems, evidence of genotoxicity in vivo is still required to confirm the hypothesis linking such reactive oxygen species to the carcinogenicity observed in rodents with certain peroxisome proliferators.


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