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Anemia of inflammatory disease in the dog: measurement of hepatic superoxide dismutase, hepatic nonheme iron, copper, zinc, and ceruloplasmin and serum iron, copper, and zinc.
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1981
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Iron MetabolismLipid PeroxidationPathologyVeterinary ResearchCopper-zinc EnzymeRedox BiologyOxidative StressInflammationHematologyToxicologyHepatotoxicitySuperoxide DismutaseHealth SciencesAnimal PhysiologyVeterinary PhysiologyAllergyBiochemistryLiver PhysiologyVeterinary PathologyVeterinary DiagnosticsSerum ZincReactive Oxygen SpecieInflammatory DiseaseHepatologyAnimal ScienceBioactive MetalPhysiologyVeterinary ScienceHepatic Superoxide DismutaseMetal ToxicityMetabolismMedicineHepatic Nonheme Iron
Copper and iron are involved in protection of the aerobic cell from highly toxic oxygen by-products, one of which is the superoxide anion-free radical. This protection is associated with a copper-zinc enzyme, superoxide dismutase. Increased hepatic superoxide dismutase activity correlated directly with hepatic nonheme iron, serum zinc, and serum copper concentrations and inversely with hepatic copper, hepatic zinc, and serum iron concentrations (P less than 0.001). Decrease in hepatic ceruloplasmin concentration was correlated with the decrease in hepatic copper concentration (P less than 0.001).