UNIPROT:P02794 - FACTA Search

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

The objective of this study was to assess the relationship between iron metabolism and pharmacokinetics of hemoglobin-based oxygen carrier-201 (HBOC-201), a polymerized hemoglobin product of bovine origin. A randomized, single-blind, single-dose study design was used. The study was performed at the Upjohn Research Clinics in Kalamazoo, Michigan. Four groups of healthy men and women (n = 24), who either received HBOC-201 (9 men, 9 women) or a control solution (Ringer's lactate) (3 men, 3 women) participated in the study. All subjects had phlebotomy (approximately 15% blood volume) followed by 3:1 hemodilution with Ringer's lactate and an intravenous infusion of HBOC-201 (up to 45 gm or 350 ml) or control solution (Ringer's lactate). Serial arterial blood gas samples with a radial artery catheter and simultaneous pulse oximetry were done during the first 24 hours. Serial samples for serum iron, ferritin, erythropoietin, and plasma HBOC-201 levels were taken over a 1-month period. In the HBOC-201-treated groups, serum iron and ferritin levels increased. Peak serum iron and ferritin levels occurred by hours 8 (up to 220 micrograms/dl) and 48 (up to 180 ng/ml), respectively. Serum iron levels paralleled HBOC-201 concentrations. Plasma half-life of HBOC-201 was about 20 hours. Serum erythropoietin increased by twofold to sixfold over baseline (p < 0.001) at 24 hours. No urinary hemoglobin was detected in the groups with HBOC-201-treated subjects. This study demonstrates that HBOC-201 produces increases in serum iron, ferritin, and erythropoietin that closely parallel plasma levels of HBOC-201 in men and women.
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PMID:Hematologic effects of a novel hemoglobin-based oxygen carrier in normal male and female subjects. 759 29

The Escherichia coli Fur protein, with its iron(II) cofactor, represses iron assimilation and manganese superoxide dismutase (MnSOD) genes, thus coupling iron metabolism to protection against oxygen toxicity. Iron assimilation is triggered by iron starvation in wild-type cells and is constitutive in fur mutants. We show that iron metabolism deregulation in fur mutants produces an iron overload, leading to oxidative stress and DNA damage including lethal and mutagenic lesions. fur recA mutants were not viable under aerobic conditions and died after a shift from anaerobiosis to aerobiosis. Reduction of the intracellular iron concentration by an iron chelator (ferrozine), by inhibition of ferric iron transport (tonB mutants), or by overexpression of the iron storage ferritin H-like (FTN) protein eliminated oxygen sensitivity. Hydroxyl radical scavengers dimethyl sulfoxide and thiourea also provided protection. Functional recombinational repair was necessary for protection, but SOS induction was not involved. Oxygen-dependent spontaneous mutagenesis was significantly increased in fur mutants. Similarly, SOD deficiency rendered sodA sodB recA mutants nonviable under aerobic conditions. Lethality was suppressed by tonB mutations but not by iron chelation or overexpression of FTN. Thus, superoxide-mediated iron reduction was responsible for oxygen sensitivity. Furthermore, overexpression of SOD partially protected fur recA mutants. We propose that a transient iron overload, which could potentially generate oxidative stress, occurs in wild-type cells on return to normal growth conditions following iron starvation, with the coupling between iron and MnSOD regulation helping the cells cope.
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PMID:Lethal oxidative damage and mutagenesis are generated by iron in delta fur mutants of Escherichia coli: protective role of superoxide dismutase. 773 Feb 58

This study describes the damage that occurs to lipids and proteins that have been irradiated in vitro or in human skin fibroblasts with physiological doses of UVA radiation. Thiobarbituric acid-reactive species were formed from phosphatidylcholine after UVA radiation in vitro. By using iron chelators, this process was shown to involve iron. Ferric iron associated with potential physiological chelators was reduced by UVA radiation, but iron within ferritin was not. By enhancing the half life-time with deuterium oxide or by using scavengers, singlet oxygen was also shown to be involved in the UVA radiation-dependent peroxidation of phosphatidylcholine. UVA radiation-generated singlet oxygen reacted with phosphatidylcholine to form lipid hydroperoxides, and the breakdown of these hydroperoxides to thiobarbituric acid-reactive species was dependent on iron. We have shown that iron and singlet oxygen are also involved in the UVA radiation-dependent formation of thiobarbituric acid-reactive species in human skin fibroblasts, and we propose that a similar concerted effect of iron and singlet oxygen is involved in UVA radiation-dependent damage to fibroblast lipids. Sulphydryl groups of bovine serum albumin and human gamma-globulin were oxidised upon UVA irradiation in vitro. The use of scavengers and deuterium oxide showed that UVA radiation-dependent sulphydryl oxidation was dependent on singlet oxygen. By adding or chelating iron, UVA radiation-dependent oxidation of sulphydryl groups of bovine serum albumin and human gamma-globulin was shown to be iron-dependent. The use of catalase and hydroxyl radical scavengers demonstrated that hydrogen peroxide, but not the hydroxyl radical, was involved. The oxidation of sulphydryl groups of proteins in human skin fibroblasts that occurs as a result of UVA irradiation was also shown to involve iron, singlet oxygen, and hydrogen peroxide. We conclude that iron, singlet oxygen, and hydrogen peroxide are important redox active species involved in the deleterious effects of UVA radiation on lipids and proteins of human skin cells.
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PMID:UVA radiation-induced oxidative damage to lipids and proteins in vitro and in human skin fibroblasts is dependent on iron and singlet oxygen. 775 Jul 96

Reactive oxygen intermediates (ROIs), including superoxide anion (O2.-) and hydrogen peroxide (H2O2), are by-products of aerobic metabolism with potential toxicity towards cellular macromolecules, including lipids, proteins and DNA. Excess ROIs, a condition referred to as oxidative stress, is considered to be a major contributor to ageing, degenerative diseases and reperfusion injury. The reactivity of H2O2 with iron (Fenton reaction) intimately connects oxidative stress and cellular iron metabolism. We have found a novel oxidative stress response pathway in mammalian cells which links oxidative stress to the regulation of iron metabolism. Exposure of cells to H2O2 leads to reduced synthesis of the intracellular iron storage protein ferritin and stimulates transferrin receptor (TfR) mRNA expression. Both responses are post-transcriptional and result from induction of iron regulatory protein (IRP) binding to iron-responsive elements (IREs) in ferritin and TfR mRNAs. IRP induction by H2O2 appears to involve the disassembly of its cubane 4Fe-4S cluster and occurs even in the presence of the protein synthesis inhibitor cycloheximide. The induction kinetics by H2O2 far exceed those by iron starvation. The response requires cellular integrity and cannot be elicited in cell extracts. Whereas the activation of IRP by iron depletion is insensitive to okadaic acid, the rapid induction by H2O2 is blocked by this inhibitor of type I/IIa protein phosphatases. Thus okadaic acid separates the activation pathways by iron depletion and oxidative stress, suggesting the involvement of stress-induced kinase/phosphatase pathways in the latter.
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PMID:Rapid responses to oxidative stress mediated by iron regulatory protein. 779 17

A mechanistic study involving the 365 nm irradiation of aerated, phosphate-buffered solutions of human high-density lipoproteins (HDL3 fraction) and ferritin was undertaken. The 365 nm irradiation of phosphate-buffered horse spleen ferritin solutions induces the release of Fe2+ in the medium. The initial quantum yield of Fe2+ release on irradiation is 0.002. This quantum yield is oxygen independent. The 365 nm irradiation of mixtures of HDL and ferritin leads to alterations in apolipoproteins as revealed by tryptophan (Trp) oxidation and electrophoretic pattern modification. In parallel with protein damage, lipid peroxidation is induced as shown by hydroperoxide and thiobarbituric acid reactive substances (TBARS) formation. These peroxidations are strongly reduced in 0.1 M formate solution, which suggests chain initiation by .OH radicals or subsequent radicals produced by .OH. They are completely inhibited by desferrioxamine, consistent with propagation by Fe2+ ion. By contrast incubation of HDL in the presence of ferritin and FeSO4 induces only poor auto-oxidation. The biological relevance of this study is discussed.
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PMID:Peroxidation of model lipoprotein solutions sensitized by photoreduction of ferritin by 365 nm radiation. 781 91

Ferritin, by regulating the "free" intracellular iron pool, controls iron-catalyzed generation of reactive oxygen species, but its role in oxidative damage is still unclear. We show that ferritin synthesis is significantly stimulated in the liver of rats subjected to oxidative stress by treatment with phorone, a glutathione-depleting drug. RNA-bandshift assays document reduced activity of iron regulatory factor, in particular of IRFB, the cytoplasmic protein that post-transcriptionally controls ferritin mRNA translation. Furthermore, Northern blot analysis shows increased accumulation of H and L subunit mRNAs, and nuclear run-on experiments provide evidence of transcriptional activation. Direct measurements of intracellular free iron levels by EPR indicate that the increased ferritin synthesis can be mediated by an expansion of the free iron pool. An early drop of ferritin content after phorone treatment indicates that part of the iron that fuels the free pool might derive from ferritin degradation. Present data seem to suggest that, under conditions of oxidative stress, liver ferritin can represent either a pro- or an anti-oxidant in a time-dependent manner. In fact, its early degradation contributes to expand the intracellular free iron pool that, later on, activates multiple molecular mechanisms to reconstitute ferritin content, thus limiting the pro-oxidant challenge of iron.
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PMID:Induction of ferritin synthesis by oxidative stress. Transcriptional and post-transcriptional regulation by expansion of the "free" iron pool. 782 98

Ferritin is an iron-storage protein ubiquitous in mammals, plants and bacteria. It can be reconstituted, in vitro, from the apoprotein and Fe(II) salts in the presence of dissolved oxygen. Recently it has been reported that caeruloplasmin can facilitate apoferritin reconstitution and that iron oxidized by caeruloplasmin is sequestered within the ferritin shell. Here we show that the primary effect of adding caeruloplasmin to horse spleen ferritin during reconstitution is the competition between the two molecules for the iron. This competition results in overall increased rates of iron oxidation and a mixture of products, namely iron-containing ferritin and iron hydroxy polymers attached to caeruloplasmin. Iron oxidized by caeruloplasmin is not incorporated, to any significant extent, into horse spleen ferritin.
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PMID:Ferritin does not accumulate iron oxidized by caeruloplasmin. 782 31

The brain is the most compartmentalized organ. It is also highly aerobic. Because nerve cells grow but do not regenerate, the brain is the organ best suited for the accumulation of metabolic errors colocalized in specific areas of the brain over an extended period. Alzheimer's disease (AD) is primarily a neurological disorder of the elderly. It is suggested that this disorder results from the accumulation of such errors, and that AD onset aluminum and iron contribute to but do not necessarily initiate the onset of the disease. In vitro and in vivo evidence summarized here suggests that this is effected by interfering in the utilization of glucose and glucose-6-phosphate, and sequestration of iron by ferritin. beta-amyloid precusor proteins (beta-APPs) are normal components of the human brain and some other tissues. Proteolysis of these, presumably by serine proteases, generates a 39 to 42 amino acid long peptide, the alpha-amyloid (beta-AP). In AD brains, beta-AP aggregates into plaque, the hallmark of AD brains. Some of the alpha-APPs also contain a 56 amino acid long segment which inhibits serine proteases. We show that in vitro, at pH 6.5, aluminum activates beta-chymotrypsin 2-fold and makes it dramatically resistant to protease inhibitors such as bovine pancreatic trypsin inhibitor (bPTI) or its mimic present in the beta-amyloid precursor proteins (beta-APPs). Iron and oxygen are reported to favor cross-linking of beta-AP in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Iron and aluminum homeostasis in neural disorders. 784 99

Iron-derived reactive oxygen species play an important role in the pathogenesis of various vascular disorders including vasculitis, atherosclerosis, and capillary leak syndromes such as the adult respiratory distress syndrome (ARDS). We have suggested that acute incorporation of the heme moiety of hemoglobin released from red blood cells into endothelium could provide catalytically active iron to the vasculature. Adaptation to chronic heme stress involves the induction of heme oxygenase and ferritin; the latter provides cytoprotection against free radicals in vitro. The present studies examine the bioavailability of heme, derived from hemoglobin, to induce heme oxygenase and ferritin in rat lungs in vivo. Intravenous injection of methemoglobin, but not oxyhemoglobin, increases total lung heme oxygenase mRNA approximately fivefold after 16 h. Accompanying this mRNA induction, expression of total lung heme oxygenase enzyme activity is also markedly enhanced. In situ hybridization for heme oxygenase reveals mRNA accumulation in the lung microvascular endothelium, implying incorporation of heme into endothelial cells. Similarly, methemoglobin significantly increases the ferritin protein content of rat lungs and in parallel, ferritin light-chain mRNA increases approximately 1.6-fold, whereas heavy-chain mRNA is upregulated by approximately 1.9-fold. Immunoreactive ferritin is present in lung microvascular endothelium after methemoglobin treatment, suggesting incorporation of heme iron into pulmonary vasculature. Subcutaneous injection of Sn-protoporphyrin IX, a competitive inhibitor of heme oxygenase, does not affect methemoglobin-induced ferritin synthesis in lungs. We speculate that methemoglobin, which might be generated by activated leukocytes in ARDS associated with disseminated interavascular coagulation, can provide heme iron to lung microvascular endothelium to induce heme oxygenase and ferritin.
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PMID:Endothelial cell heme oxygenase and ferritin induction in rat lung by hemoglobin in vivo. 786 52

Due to the chemical nature of oxygen, its tendency to accept a single electron to create the superoxide radical, and the fact that every aerobic cell must deal with this difficult situation, the production of oxygen-derived free radicals is an almost universal accompaniment to cellular pathology. In sepsis or immunologic disease, the activated phagocyte becomes a major producer of active oxygen species, contributing to oxidative injury to host tissues. The resulting oxidative stress is seriously exacerbated by the availability of iron, liberated from the body's store of ferritin. The antioxidant vitamins and the body's antioxidant enzymes (superoxide dismutase, catalase, and glutathione peroxidase) can help to restore and maintain proper oxidant/antioxidant balance.
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PMID:Oxygen-derived free radicals. 792 95

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