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)

Total content of Fenh and its amounts incorporated into paramagnetic dinitrozyl complexes of Fenh (complexes 2.03) which are formed in vitro in homogenates of mouse liver and yeast preparations treated with nitrogen oxide was determined by means of chemical and ESR methods. Formation of the complexes 2.03 in the liver homogenate is limited by the content of easily dyalized weakly bound Fenh, in yeasts--by the content of pair RS-groups. It is suggested that in the liver preparation Fenh incorporated into the complexes 2.03 is determined by the interaction of reduction cytoplasm agents with ferritin. A change in the content of Fenh may affect the appearance and disappearance of the complexes 2.03 in animal tissues in vivo.
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PMID:[Factors influencing formation of dinitrosyl complexes of non-heme iron in vitro preparations of mouse liver and yeasts]. 19 16

To determine the fluidity of the membrane lipid phase, chicken erythrocytes were labeled with a stearic acid derivative spin label. When chicken erythrocytes were treated with concanavalin A (Con A), ESR spectra showed a change in the peaks of the labels in membrane lipids, indicating an increase of membrane fluidity. The degree of the increase in fluidity of the membrane lipid phase depended on the valency of the lectin used. Tetravalent Con A induced an increase of membrane fluidity at a concentration as low as 30 micrograms/ml, while a monovalent derivative of Con A did not affect membrane fluidity. This increase in membrane fluidity was observed within 10 min after the addition of Con A. If bound Con A was removed with methyl alpha-D-mannoside later than 60 min after its addition, a complete return of the fluidity to the normal level could not be observed. However, no change was found in the composition of phospholipids or in the fatty acid compositions of phosphatidylcholine and phosphatidylethanolamine of chicken erythrocytes after the addition of Con A, indicating that this increase in membrane fluidity is not caused by a change of lipid composition. The clustering of membrane receptors of chicken erythrocytes for Con A was demonstrated when the two-dimensional distribution of ferritin-conjugated Con A on the membranes was assayed by transmission electron microscopy. Furthermore, it was shown that major receptors for Con A of chicken erythrocytes were transmembrane glycoproteins having apparent molecular weights of 100K, 45, and 33K.
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PMID:Concanavalin A-induced increase in the membrane fluidity of chicken erythrocytes. 23 Oct 35

Still's disease was reported to be a type of Juvenile Rheumatoid Arthritis (JRA) by Still in 1897. Adult-onset Still's disease is an important clinical entity inducing fever, skin rash and polyarthritis. Spiking fever and rash are characteristic features for early diagnosis. Although chronic polyarthritis is similar to RA, ankylosis of hand joint is characteristic for Still's disease rather than destructive change. Increased ESR, negative autoantibodies, leukocytosis, liver dysfunction and hyperferritinemja are major laboratory findings. A markedly increased level of serum ferritin can be used, not only as an indicator of disease activity, but also as a diagnostic marker of the disease. For therapy, a moderate dose of steroid is the most effective.
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PMID:[Adult Still's disease]. 158 58

The oxidase reaction of lipoamide dehydrogenase with NADH generates superoxide radicals and hydrogen peroxide under aerobic conditions. ESR spin trapping using 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) was applied to characterize the oxygen radical species generated by lipoamide dehydrogenase and the mechanism of their generation. During the oxidase reaction of lipoamide dehydrogenase, DMPO-OOH and DMPO-OH signals were observed. The DMPO-OOH signal disappeared on addition of superoxide dismutase. These results demonstrate that the DMPO-OOH adduct was produced from the superoxide radical generated by lipoamide dehydrogenase. In the presence of dimethyl sulfoxide, a DMPO-CH3 signal appeared at the expense of the DMPO-OH signal, indicating that the DMPO-OH adduct was produced directly from the hydroxyl radical rather than by decomposition of the DMPO-OOH adduct. The DMPO-OH signal decreased on addition of superoxide dismutase, catalase, or diethylenetriaminepentaacetic acid, indicating that the hydroxyl radical was generated via the metal-catalyzed Haber-Weiss reaction from the superoxide radical and hydrogen peroxide. Addition of ferritin to the NADH-lipoamide dehydrogenase system resulted in a decrease of the DMPO-OOH signal, indicating that the superoxide radical interacted with ferritin iron.
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PMID:Mechanisms of generation of oxygen radicals and reductive mobilization of ferritin iron by lipoamide dehydrogenase. 165 85

Erythrocyte and serological parameters were assessed in 44 anaemic rheumatoid arthritis (RA) patients to detect iron deficiency as assessed by stainable bone marrow iron. The anaemia was normochromic normocytic in 60% and hypochromic normocytic in 30% of those with anaemia of chronic disease (ACD). Iron deficiency was present in 55% and the anaemia was hypochromic microcytic in 54% and hypochromic normocytic or normochromic normocytic in 21%. Iron absorption was found to be higher in iron deficient patients. In ACD patients, iron absorption correlated inversely with ESR and CRP. For the detection of iron deficiency among RA patients with ACD, the MCV showed the highest specificity (90%) and predictive value (87%). Serum ferritin was the most sensitive (82%) and valid (86%) test. Combination of MCV, ferritin and transferrin resulted in 100% validity. It was concluded that iron deficiency can be detected accurately without bone marrow aspiration using combinations of blood parameters.
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PMID:Anaemia of chronic disease: diagnostic significance of erythrocyte and serological parameters in iron deficient rheumatoid arthritis patients. 218 67

The diabetogenic action of alloxan is believed to involve oxygen free radicals and iron. Incubation of glutathione (GSH) and alloxan with rat liver ferritin resulted in release of ferrous iron as assayed by spectrophotometric detection of ferrous-bathophenanthroline complex formation. Neither GSH nor alloxan alone mediated iron release from ferritin. Superoxide dismutase (SOD) and catalase did not affect initial rates of iron release whereas ceruloplasmin was an effective inhibitor of iron release. The reaction of GSH with alloxan resulted in the formation of the alloxan radical which was detected by ESR spectroscopy and by following the increase in absorbance at 310nm. In both instances, the addition of ferritin resulted in diminished alloxan radical detection. Incubation of GSH, alloxan, and ferritin with phospholipid liposomes also resulted in lipid peroxidation. Lipid peroxidation did not occur in the absence of ferritin. The rates of lipid peroxidation were not affected by the addition of SOD or catalase, but were inhibited by ceruloplasmin. These results suggest that the alloxan radical releases iron from ferritin and indicates that ferritin iron may be involved in alloxan-promoted lipid peroxidation.
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PMID:Alloxan- and glutathione-dependent ferritin iron release and lipid peroxidation. 253 98

The chemistry of oxidative deposition of iron(III) in ferritin and apoferritin is poorly understood. This study was undertaken to look for radicals formed as the hydrous ferric oxide core is developed from Fe(II) and O2. Radicals were observed indirectly by using the spin-trapping reagent N-tert-butyl-alpha-phenylnitrone (PBN) at room temperature and directly by measuring ESR spectra of frozen solutions at 77 K. In both instances, radical production was inhibited by the hydroxyl radical scavenging agents dimethyl sulfoxide, thiourea, and mannitol and enhanced by the addition of hydrogen peroxide. These findings strongly suggest that hydroxyl radical, produced from the iron-catalyzed Haber-Weiss reaction, is a by-product of core formation in ferritin and is a precursor to the observed radicals. The yield of ESR-observable and spin-trapped radicals is quite low, being at the micromolar level when millimolar concentrations of ferrous ion are employed. Furthermore, radical production appears to be confined to the interior of the ferritin molecule, where cellular components would be protected from the oxygen-derived toxic effects of iron. It is postulated that hydroxyl radical-medicated oxidative damage to the protein, a process that may contribute to the formation of hemosiderin from ferritin, leads to the observed radicals. By serving as a sink for hydroxyl radical, the protein shell may therefore efficiently minimize damage to other biomolecules in the cell.
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PMID:Hydroxyl radical production during oxidative deposition of iron in ferritin. 255 48

Alloxan in the presence of reduced glutathione released iron from ferritin which is the major intracellular iron storage protein. Superoxide dismutase inhibited by only about 30% the alloxan-dependent iron release from ferritin but completely inhibited the iron release from ferritin induced by hypoxanthine-xanthine oxidase. Under anaerobic conditions, the ESR spectrum of alloxan radical was obtained and interaction with ferritin resulted in a marked diminution of the alloxan radical signal. These results indicate that alloxan radical rapidly releases iron from ferritin.
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PMID:Iron release from ferritin by alloxan radical. 285 Apr 25

Ischemia was simulated in rat liver perfused by physiological solution. The concentration of free iron and lipid peroxidation (LPO) products was measured 1, 2, 3, 4 and 5 hours after ischemia onset. The ESR method was used to measure free iron concentration. The LPO intensity was evaluated by the TBA test and by optical density at 232 nm. The content of free iron in cytoplasm increased in the course of ischemia with an increase in the concentration of LPO products. The content of free iron in the membranes remained unchanged. It is supposed that activation of LPO in ischemia may be caused by the appearance in the cytoplasm of a large amount of free iron. This iron can be liberated from ferritin in conditions of low oxygen concentration.
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PMID:[Role of endogenous free iron in activating lipid peroxidation in ischemia]. 298 78

NADPH-cytochrome P-450 reductase-catalyzed reduction of paraquat promoted the release of iron from ferritin. Aerobically, iron release was inhibited approximately 60% by superoxide dismutase, whereas xanthine oxidase-dependent iron release was inhibited nearly 100%. This suggests that both superoxide and the paraquat cation radical can catalyze the release of iron from ferritin. Accordingly, under anaerobic conditions, the paraquat radical mediated a very rapid, complete release of iron from ferritin. Similarly, the cation free radicals of the closely related chemicals, diquat and benzyl viologen, also promoted iron release. ESR studies demonstrated that electron transfer from the paraquat cation radical to ferritin accounts for the reductive release of iron. The ferritin structure was not altered by exposure to the paraquat radical and also retained its ability to re-incorporate iron. These studies indicate that release of iron from ferritin may be a common feature contributing to free radical-mediated toxicities.
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PMID:Reductive release of iron from ferritin by cation free radicals of paraquat and other bipyridyls. 302 22


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