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)

Our earlier studies showed that rabbit muscle phosphoglucomutase was irreversibly inactivated by exposure to a mixture of vitamin C, FeCl3 and O2. The enzyme lost about 70% of its phosphate (V.V. Desphande and J.G. Joshi, J. Biol. Chem. 260, 754-764, 1985). The present report shows that several other iron proteins can substitute for FeCl3 to a varying degree. The rate of inactivation by FeCl3 greater than ferritin greater than hemoglobin = hemerythrin greater than transferrin = ferridoxin = vitamin C. These iron compounds also produced dephosphoenzyme but did not dephosphorylate ATP, ADP, AMP or phospholipids.
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PMID:Differential loss of enzyme activity by vitC and iron containing proteins. 295 84

Ferritin was found to promote the peroxidation of phospholipid liposomes, as evidenced by malondialdehyde formation, when incubated with xanthine oxidase, xanthine, and ADP. Activity was inhibited by superoxide dismutase but markedly stimulated by the addition of catalase. Xanthine oxidase-dependent iron release from ferritin, measured spectrophotometrically using the ferrous iron chelator 2,2'-dipyridyl, was also inhibited by superoxide dismutase, suggesting that superoxide can mediate the reductive release of iron from ferritin. Potassium superoxide in crown ether also promoted superoxide dismutase-inhibitable release of iron from ferritin. Catalase had little effect on the rate of iron release from ferritin; thus hydrogen peroxide appears to inhibit lipid peroxidation by preventing the formation of an initiating species rather than by inhibiting iron release from ferritin. EPR spin trapping with 5,5-dimethyl-1-pyrroline-N-oxide was used to observe free radical production in this system. Addition of ferritin to the xanthine oxidase system resulted in loss of the superoxide spin trap adduct suggesting an interaction between superoxide and ferritin. The resultant spectrum was that of a hydroxyl radical spin trap adduct which was abolished by the addition of catalase. These data suggest that ferritin may function in vivo as a source of iron for promotion of superoxide-dependent lipid peroxidation. Stimulation of lipid peroxidation but inhibition of hydroxyl radical formation by catalase suggests that, in this system, initiation is not via an iron-catalyzed Haber-Weiss reaction.
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PMID:Ferritin and superoxide-dependent lipid peroxidation. 298 54

Human polymorphonuclear leucocytes were found to promote peroxidation of phospholipid liposomes upon stimulation by phorbol myristate acetate. Peroxidation required the presence of either pyrophosphate-chelated or ADP-chelated iron, whereas iron chelated to EDTA or ATP had no effect. Peroxidation was also catalyzed by ferritin, but not by transferrin. Superoxide dismutase abolished the peroxidation, whereas catalase and apparently also the hydroxyl radical scavenger dimethyl sulphoxide were inactive, indicating that the peroxidation was mediated by superoxide radicals but not by hydrogen peroxide or hydroxyl radicals. Xanthine oxidase-promoted peroxidation was studied for comparison and showed similar characteristics except that transferrin catalyzed the peroxidation. Peroxidation of membrane lipids may be a mechanism whereby granulocytes cause tissue damage in inflammation. The drugs paracetamol, gentisic acid and 5-aminosalicylic acid inhibited lipid peroxidation, probably through their ability to react with the superoxide anion.
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PMID:Peroxidation of liposomes promoted by human polymorphonuclear leucocytes. 301 66

Previous studies documented the abnormal association of heme and heme proteins with the sickle RBC membrane. We have now examined RBC ghosts and inside-out membranes (IOM) for the presence of nonheme iron as detected by its formation of a colored complex with ferrozine. Sickle ghosts have 33.8 +/- 18.2 nmol nonheme iron/mg membrane protein, and sickle IOM have 4.3 +/- 3.0 nmol/mg. In contrast, normal RBC ghosts and IOM have no detectable nonheme iron. The combination of heme and nonheme iron in sickle IOM averages nine times the amount of membrane-associated iron in normal IOM. Kinetics of the ferrozine reaction show that some of this nonheme iron on IOM reacts slowly and is probably in the form of ferritin, but most (72% +/- 18%) reacts rapidly and is in the form of some other biologic chelate. The latter iron compartment is removed by deferoxamine and by treatment of IOM with phospholipase D, which suggests that it represents an abnormal association of iron with polar head groups of aminophospholipids. The biologic feasibility of such a chelate was demonstrated by using an admixture of iron with model liposomes. Even in the presence of tenfold excess adenosine diphosphate, iron partitions readily into phosphatidylserine liposomes; there is no detectable association with phosphatidylcholine liposomes. To examine the bioavailability of membrane iron, we admixed membranes and t-butylhydroperoxide and found that sickle membranes show a tenfold greater peroxidation response than do normal membranes. This is not due simply to a deficiency of vitamin E, and this is profoundly inhibited by deferoxamine. Thus, while thiol oxidation in sickle membranes previously was shown to correlate with heme iron, the present data suggest that lipid peroxidation is related to nonheme iron. In control studies, we did not find this pathologic association of nonferritin, nonheme iron with IOM prepared from sickle trait, high-reticulocyte, postsplenectomy, or iron-overloaded individuals. These data provide additional support for the concept that iron decompartmentalization is a characteristic of sickle RBCs.
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PMID:Nonheme iron in sickle erythrocyte membranes: association with phospholipids and potential role in lipid peroxidation. 316 8

NADPH- and iron-dependent lipid peroxidation of rat heart and liver microsomes was measured in the presence and absence of adriamycin. Lipid peroxidation was enhanced by adriamycin when incubated in air and was increased as the pO2 was lowered, to a maximum of 3-4 times the aerobic level at a pO2 of approx. 4 mm Hg. Fe-ADP, Fe-ATP and ferritin were able to catalyse adriamycin-dependent peroxidation of microsomes under low pO2. Superoxide dismutase and catalase had minimal effect. These results indicate that adriamycin-dependent lipid peroxidation is favoured by the low O2 concentration that exist in active muscle cells and suggest that ferritin could provide the iron catalyst for the reaction.
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PMID:Adriamycin-dependent peroxidation of rat liver and heart microsomes catalysed by iron chelates and ferritin. Maximum peroxidation at low oxygen partial pressures. 339 66

A deficiency of choline and methionine is hepatocarcinogenic and is associated with an apparent increase in lipid peroxidation. In this study the susceptibility of microsomes and nuclei to ferritin-dependent lipid peroxidation is examined together with the status of the peroxidation-protective systems. Choline-methionine deficiency caused an increase in Se-independent GSH peroxidases (GSH transferase subunit 2) and membrane vitamin E but a decrease in Se-dependent GSH peroxidase and microsomal GSH peroxidase activity. Choline-methionine deficient microsomes and nuclei were 4-fold more susceptible to lipid peroxidation induced in vitro by physiological concentrations of ferritin/ascorbate/ADP; and the peroxidation was less effectively inhibited by GSH and soluble GSH peroxidases than controls. The results indicate that a decreased level of Se-dependent and membrane GSH peroxidases is involved in the increase in lipid peroxidation observed in choline-methionine deficiency.
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PMID:Lipid peroxidation in choline-methionine deficiency. 350 37

In a comparative screening study of chelators intended for clinical use eleven iron chelators have been tested for their ability to mobilize (59Fe) iron from 59Fe-labelled ferritin and from hepatocytes of rats labelled with 59Fe-transferrin. The toxic effects of the chelators were also studied using microsomal lipid peroxidation induced by Fe3+/ADP and NADPH. From these tests it was shown that 1,2-dimethyl 3-hydroxypyrid-4-one (L1) and mimosine were the most effective iron chelators in iron mobilization and did not catalyse lipid peroxidation. In conclusion it can be stated that besides to investigate the iron binding capacity of new chelators also their ability to catalyse lipid peroxidation has to be ruled out.
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PMID:Free radical and cytotoxic effects of chelators and their iron complexes in the hepatocyte. 350 52

A lipid peroxidation system consisting of phospholipid liposomes, paraquat, ADP, and NADPH-cytochrome P450 reductase was constituted using ferritin as the sole source of iron. Lipid peroxidation was completely inhibited by superoxide dismutase, essentially not affected by mannitol, but markedly stimulated by catalase. Similar effects of these scavenging agents were observed in incubations void of ADP. These data suggest that O2-, produced by the redox cycling of paraquat, can release iron from ferritin and thereby promote lipid peroxidation. The effects of catalase and mannitol suggest that the initiation of peroxidation, in either the presence or absence of ADP, is not significantly dependent upon the hydroxyl radical produced via an iron-catalyzed Haber-Weiss reaction.
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PMID:Paraquat and ferritin-dependent lipid peroxidation. 393 39

We examined the effects of chronic dietary iron overload on hepatic mitochondrial oxidative metabolism. Experimental iron overload was produced by feeding rats a chow diet supplemented with carbonyl iron over a 7-week period. Biochemical and histologic evaluations of liver tissue confirmed moderate degrees of hepatic parenchymal iron overload. Electron microscopy showed no abnormalities in hepatic mitochondrial ultrastructure in blocks of tissue or in mitochondrial fractions from iron-loaded liver. Studies of mitochondrial oxidative metabolism revealed a consistent and progressive decrease in state 3 (ADP-stimulated) respiration and in respiratory control ratios at hepatic iron concentrations above 1,000 micrograms per gm for all three substrates studied, glutamate, beta-hydroxybutyrate and succinate. Changes in state 4 (ADP-limited) respiration and ADP/O ratios were not progressive with increasing hepatic iron concentrations. At hepatic iron concentrations at which there were decreases in state 3 respiration and respiratory control ratios, there was also evidence of lipid-conjugated diene formation, indicative of mitochondrial lipid peroxidation. There were no changes in mitochondrial function when iron as either ferritin or hemosiderin or as a combination of ferritin, hemosiderin and ferric nitrilotriacetate was added in vitro to normal liver homogenates. Use of density gradient centrifugation to reduce iron and lysosomal contamination of mitochondrial fractions failed to prevent the reduction in mitochondrial function. We conclude that moderate degrees of chronic hepatic iron overload in vivo result in an inhibitory defect in the mitochondrial electron transport chain as evidenced by a decrease in state 3 respiration and respiratory control ratios.
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PMID:Hepatic mitochondrial oxidative metabolism in rats with chronic dietary iron overload. 402 91

The fibrinogen distribution in platelet organelles after ADP-stimulation was investigated with anti-human fibrinogen using protein A-gold applied to serial sections. Fibrinogen was detected in the so-called alpha-granules of platelets and also in granule protrusions which were observed after ADP-stimulation. The ends of these protrusions were formed as coated membranes and the tips were often in apposition to the surface connected membranes or the plasmalemma. At such places fusion events and hence signs of an exocytosis could be demonstrated by means of cryofixation and cryosubstitution. Examination of serial sections revealed fibrinogen on all these granule profiles. Surface connected membranes, free surfaces and the characteristic structure of the contact zones of aggregated platelets were also labelled by gold particles but less than anticipated. On the platelet surfaces and surface connected membranes fibrinogen was rarely demonstrable with ferritin-labelled anti-human fibrinogen on washed or thrombin-stimulated, almost fibrinogen free platelets. After addition of human fibrinogen to the thrombin stimulated and disaggregated platelets a part of the platelets aggregated spontaneously and formed characteristic contact zones. Anti-human fibrinogen was observed on the free surfaces, in filamentous bridges between the contact spaces and in a tubular surface connected membrane system with involvement of coated membranes at the central ends of these structures. The results indicate the following: all alpha-granules contain fibrinogen; after ADP-stimulation secretion takes place with involvement of coated membranes; during aggregation fibrinogen binds to platelet surfaces and forms contact spaces; fibrinogen is taken up by the surface connected system with involvement of coated membranes.
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PMID:Fibrinogen distribution on surfaces and in organelles of ADP stimulated human blood platelets. 404 93


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