Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To examine the relationship between apolipoprotein E and serum oxidation status, we assayed apolipoprotein E level, apolipoprotein E phenotype, and levels of lipid peroxides and transition metal ions and their binding proteins in sera from apparently healthy individuals. The study group included 129 women aged 22-63 years and 53 men aged 22-56 years. Among subjects with apolipoprotein E 4/3 phenotype, lipid peroxide levels were higher compared with E 3/2 phenotype (786 +/- 182 nmol/l vs. 659 +/- 174 nmol/l, P = 0.015), and ceruloplasmin levels were slightly higher compared with apolipoprotein E 3/3 phenotype (0.28 +/- 0.08 mg/l vs. 0.26 +/- 0.06 mg/l, P = 0.035). In the study group as a whole, there were significant associations between serum apolipoprotein E level, and serum levels of ceruloplasmin (r = 0.266, P < 0.001) and ferritin (r = 0.2, P < 0.007). Among subjects with apolipoprotein E 4/3 phenotype, there was a significant association between serum apolipoprotein E and lipid peroxide levels (r = 0.470, P < 0.01), which was not apparent among subjects with E 3/3 or E 3/2 phenotypes. In multivariate analysis, apolipoprotein E phenotype was a small but significant independent contributor to variation in serum lipid peroxide levels. These data suggest that there may be heterogeneity among apolipoprotein E phenotypes in their relationships with serum lipid oxidation status.
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PMID:The relationship between apolipoprotein E and serum oxidation-related variables is apolipoprotein E phenotype dependent. 968 54

The diagnosis and treatment of fetal and neonatal diseases requires knowledge of gestational age-dependent reference ranges for most laboratory values. It was the aim of the present study to establish reference values for serum iron, transferrin, ferritin and ceruloplasmin concentrations in premature neonates, thereby paying attention to the possible changes with gestational age. Blood samples were taken from 100 premature neonates within the first hour of life. Total serum iron, transferrin, ferritin and ceruloplasmin concentrations were determined, transferrin saturation was calculated. Newborns who developed a presumed oxygen radical disease of prematurity were excluded from the study (n = 37), because previous investigations could demonstrate significantly lower serum transferrin and ceruloplasmin concentrations in prematures suffering one of these disorders. Related to gestational age, only serum transferrin concentration showed a statistically significant increase and correlation (r = 0.47; p < 0.0001) with rising age. Although statistically not significant, even serum ferritin concentration increased with rising age of the neonates. None of the investigated laboratory values correlated with birth weight. Only ferritin showed a slight, but statistically not significant increase with higher body mass. We conclude that gestational age-dependent changes of serum transferrin levels must be considered in the judgement of fetal and neonatal diseases, whereas total serum iron and ceruloplasmin concentrations remain rather constant at least during the last weeks of gestation.
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PMID:Gestational age-dependent reference values for iron and selected proteins of iron metabolism in serum of premature human neonates. 969 Nov 61

An attempt was made to relate the iron and phosphate content of ferritin to its subunit composition. Ferritins from various tissues were separated according to their subunit composition by anion exchange chromatography and according to their iron content by density-gradient centrifugation. Iron and phosphate contents were not related to subunit composition. Recombinant rat liver ferritin heteropolymers of different subunit composition (1, 4, 6, 10, 15, and 17 H chains per 24 mer) were maximally loaded with iron, using ceruloplasmin and phosphate. All loaded approximately the same amount of iron and phosphate (2250 and 380 atoms, respectively). The iron and phosphate content of all ferritin, including the maximally loaded recombinant ferritin heteropolymers, fit an equation we previously reported: [Fe] = 4404 - 5.61 [Pi] (D. deSilva et al., 1993, Arch. Biochem. Biophys. 303, 451-455). These results suggest that the amount of iron and apparently the space within the core of ferritin were not related to different subunit composition.
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PMID:Iron and phosphate content of rat ferritin heteropolymers. 973 70

A 59-year-old patient progressively developed dementia, hallucinations and facial dyskinesia. Brain T and T2-weighted MRI images showed low signal intensity on basal ganglia specially striatum, posterior thalamic and dentate nuclei. He had no evidence of ceruloplasmin and a high level of ferritin in the serum. Liver biopsy confirmed accumulation of iron in the cytoplasm of many hepatocytes. Similar clinical and biological signs were also observed in two brothers. All the three siblings were homozygous for a hereditary ceruloplasmin deficiency. This new clinico-pathological entity, first described in 1987, is different from Wilson's disease, Hallervorden-Spatz's disease and idiopathic hemochromatosis and linked to a mutation of the ceruloplasmin gene located on chromosome 3.
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PMID:[Cerebral hemosiderosis related to hereditary ceruloplasmin deficiency. Clinical familial case study]. 977 37

An intracellular, membrane-bound enzyme exhibiting both p-phenylenediamine oxidase activity and ferrous iron oxidase activity was isolated with the plasma membrane fraction of horse heart and studied for its ability to load iron into ferritin. The ferroxidase activity of the tissue oxidase was stimulated approximately twofold by horse spleen apoferritin, and the iron was loaded into ferritin. The loading of iron into ferritin by the tissue oxidase was inhibited by anti-horse serum ceruloplasmin antibody. The stoichiometry of iron oxidation and oxygen consumption during iron loading into ferritin by the tissue-derived oxidase and serum ceruloplasmin were 3.6 +/- 0.2 and 3.9 +/- 0.2, respectively. These data provide evidence that an enzyme analogous to ceruloplasmin is present on the plasma membrane of horse heart and that this ferroxidase is capable of catalyzing the loading of iron into ferritin. The implications of these data on the present models for the uptake and storage of iron by cells are discussed.
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PMID:Iron loading into ferritin by an intracellular ferroxidase. 979 62

Redox-active forms of iron are known to catalyze free radical mediated peroxidative reactions. There is scanty information on such effects at the sites of iron absorption. This was tested in iron-deficient WKY female rats supplemented for 15 days with FeSO4 equivalent to 8 mg of iron (D+) and compared with iron deficient (D) and iron adequate (C) rats. The levels of intestinal MDA and protein carbonyls and the activities of various antioxidant enzymes were estimated. As markers of functional integrity, the activities of alkaline phosphatase and Lys-Ala-dipeptidyl aminopeptidase were evaluated. In addition, we measured the concentrations of ferritin, transferrin, and ceruloplasmin levels in serum and in intestinal mucosa. It was observed that correction of iron deficiency resulted in significant increase in MDA and protein carbonyl formation. Activities of both alkaline phosphatase and Lys-Ala-dipeptidyl aminopeptidase were significantly decreased in D+ compared to C. The increase in catalase and decrease in Gpx was found to be sensitive to iron administration. Neither iron deficiency nor its correction had any effect on the activity of SOD and GSH levels. Iron supplementation has resulted in decreased mobilization of stored iron as reflected by increased mucosal ferritin level and decreased serum ceruloplasmin ferroxidase activity contributing to greater peroxidative stress in the intestine. These results suggest that iron-deficient intestine of rat is more susceptible to iron-mediated peroxidative damage and functional impairment during correction of deficiency with iron.
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PMID:Iron-deficient intestine is more susceptible to peroxidative damage during iron supplementation in rats. 980 Oct 65

Site-directed mutagenesis was used to investigate the loading of iron into rat liver ferritin by ceruloplasmin. Changes were made in the H chain to investigate the role of tyrosines involved in an inherent ferroxidase activity thought to be involved in the self-loading of iron into ferritin. Mutation Y34F affected the rate of iron loading by ceruloplasmin and incorporation of the oxidized iron into the core. Mutation Y29R (making it analogous to the L chain) had no effect on iron oxidation but slightly decreased core formation. A double mutation in the L chain, to open the alpha-helix bundle channel, and R25Y, making the protein more analogous to the H chain, increased the amount of iron incorporated into the core, again suggesting that this Tyr is involved in ligand exchange for core formation. Additional changes in the L chain involving the BC loop suggest that the entire BC loop is involved in the association of ferritin with ceruloplasmin, increasing its ferroxidase activity and the rate of iron loading into ferritin.
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PMID:Mutational analysis of loading of iron into rat liver ferritin by ceruloplasmin. 988 59

We report a 49-year-old female with hereditary ceruloplasmin deficiency with hemosiderosis. There was a family history of the same symptoms; her brother showed hypoceruloplasminemia and decrease of the serum copper content. On physical examinations, dementia, dysarthria, downbeat nystagmus, sensorineural hearing disturbance, orthostatic hypotension, retinitis pigmentosa, diffuse goiter, and cerebellar ataxia were noted. Laboratory examinations disclosed leukopenia, diabetes mellitus, hypothyroidism, decrease of copper content in the serum and urine. Serum ferritin concentration was remarkably increased. Serum ceruloplasmin could not be detected. Biopsy of the liver showed that iron content in the liver was increased. On MRI study, dentate nucleus of the cerebellum, basal ganglia, and the liver showed low intensity in both T1 and T2 weighted images. A nonsense mutation in the ceruloplasmin gene was found in this patient. Systemic iron deposition and tissue damage were considered as caused by deficiency of function of ceruloplasmin as ferroxidase. To our knowledge, the characteristic combination of the clinical signs in this patient has not been reported.
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PMID:[A case of hereditary ceruloplasmin deficiency with hemosiderosis]. 1039 Oct 79

This study was designed to examine the interactions among dietary iron (Fe), copper (Cu), and zinc (Zn) and their effects on Fe status and oxidative stress in female rats. In a three-factor central composite response surface design, rats were assigned to 15 groups and fed modified AIN-93G basal diets with varying amounts of Fe and Zn (7.0, 15.5, 45.8, 135.6, or 300 micrograms/g diet) and Cu (0.5, 1.1, 3.2, 9.2, or 20 micrograms/g diet) for 6 wk. Variations in hemoglobin, hematocrit, and serum ferritin were mainly related to dietary Fe. Liver nonheme Fe was directly affected by dietary Fe and was slightly attenuated by interactions between Cu and Zn, and Zn and Fe. Serum ceruloplasmin activity was primarily determined by an interaction between Cu and Zn with substantial moderation by the quadratic effect of dietary Cu. Liver and heart total superoxide dismutase (SOD) and Cu/Zn SOD activities were directly affected by dietary Cu. Dietary Fe was the only significant, yet weak, predictor of liver thiobarbituric acid reactive substances (TBARS) and vitamin E content and serum triacylglycerols. Variability in serum Cu was mostly determined by the interaction between Cu and Fe, with modification from the quadratic effect of dietary Cu. Serum Zn varied with dietary Zn with a small negative influence from the interaction between Cu and Fe. In summary, Fe status was minimally influenced by dietary Zn or Cu, and Fe intakes 10-fold greater than required did not induce overt oxidative stress in female rats. In addition, measures of antioxidant capacity were primarily influenced by dietary Cu and were optimal at moderate intakes of this micronutrient.
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PMID:Dietary copper primarily affects antioxidant capacity and dietary iron mainly affects iron status in a surface response study of female rats fed varying concentrations of iron, zinc and copper. 1039

Aceruloplasminemia is an autosomal recessive disorder of iron metabolism. Affected individuals evidence iron accumulation in tissue parenchyma in association with absent serum ceruloplasmin. Genetic studies of such patients reveal inherited mutations in the ceruloplasmin gene. To elucidate the role of ceruloplasmin in iron homeostasis, we created an animal model of aceruloplasminemia by disrupting the murine ceruloplasmin (Cp) gene. Although normal at birth, Cp(-/-) mice demonstrate progressive accumulation of iron such that by one year of age all animals have a prominent elevation in serum ferritin and a 3- to 6-fold increase in the iron content of the liver and spleen. Histological analysis of affected tissues in these mice shows abundant iron stores within reticuloendothelial cells and hepatocytes. Ferrokinetic studies in Cp(+/+) and Cp(-/-) mice reveal equivalent rates of iron absorption and plasma iron turnover, suggesting that iron accumulation results from altered compartmentalization within the iron cycle. Consistent with this concept, Cp(-/-) mice showed no abnormalities in cellular iron uptake but a striking impairment in the movement of iron out of reticuloendothelial cells and hepatocytes. Our findings reveal an essential physiologic role for ceruloplasmin in determining the rate of iron efflux from cells with mobilizable iron stores.
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PMID:Targeted gene disruption reveals an essential role for ceruloplasmin in cellular iron efflux. 1048 8


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