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)

The development of acute lung injury in rats following the intravenous injection of bleomycin was assessed by measuring the total pulmonary extravascular albumin space. Intravenous bleomycin alone produced no evidence of lung injury, yet when combined with a simultaneous exposure to hyperoxia or simultaneous tracheal instillation of ferric iron or ascorbate a severe lung injury evolved. Neither ferric iron or ascorbate alone produced lung injury when assessed in this manner, and ferrous iron, ferritin and haemoglobin did not potentiate bleomycin induced lung injury. A continuous subcutaneous infusion of desferrioxamine enhanced hyperoxia induced lung injury, and had no modulating effect on the lung injury produced by combined intravenous bleomycin and hyperoxia. These results indicate that ferric iron can potentiate bleomycin induced lung injury, and that the metal chelator desferrioxamine can have adverse effects on the development of acute lung injury.
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PMID:The effects of iron and desferrioxamine on the lung injury induced by intravenous bleomycin and hyperoxia. 246 85

Caisson disease of bone, which may affect compressed air workers and divers, is characterized by regions of bone and marrow necrosis that may lead to secondary osteoarthrosis of the hip and shoulder joints. A review of the pathologic, radiologic, and clinical aspects demonstrated uncertainties in the exact etiology. Early diagnosis is often not possible because of the delayed appearance of radiologic abnormalities. Research into these two aspects of this condition was carried out by the Medical Research Council Decompression Sickness Research Team in Newcastle upon Tyne over a ten-year period (1972 to 1982). Because no suitable animal model exists for the study of this condition, bone and marrow necrosis was produced by embolism of bone blood vessels with glass microspheres. With this model, it was shown that the presence of bone and marrow necrosis could be detected by bone scintigraphy using 99mTc-MDP and by measuring changes in serum ferritin concentration at a much earlier stage than was possible by radiography. However, only the former method has proved useful in clinical practice. Investigations into the etiology of caisson disease of bone have shown evidence for an increase in marrow fat cell size resulting from hyperoxia. This phenomenon may play a role in the production and localization of gas bubble emboli, which are thought to be the cause of the bone and marrow necrosis.
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PMID:Caisson disease of bone. 375 75

The effects of calcium concentration changes in carotid body cells on the chemoreceptor discharges were studied in vitro on carotid bodies removed from anaesthetized rabbits. Addition of calcium-containing liposomes to the superfusing medium increased the chemoreceptors' discharges. This effect was abolished by hyperoxia or when EGTA-containing liposomes were simultaneously added with the calcium-containing liposomes. A histological control with ferritin-enriched liposomes showed that the liposome content was transferred into the cellular elements of the preparation except the nerve endings. Results suggest a relationship between calcium concentration changes in carotid body cells and chemoafferent activity.
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PMID:Effects of ion-containing liposomes upon the chemoafferent activity of the rabbit carotid body superfused in vitro. 684 3

Heme oxygenase (HO) is the rate-limiting enzyme in the production of bilirubin from heme, and HO-1 is its inducible isoenzyme. In the metabolic pathway of HO a potential oxidant, heme, is degraded, a potential antioxidant, bilirubin, is generated, and a potent sequestering agent of redox active iron, ferritin, is thought to be coinduced. Therefore, the sum of the reactions of HO may be useful in antioxidant defense. To explore the role of HO in protection against oxidative stress, we examined HO-1 expression in Chinese hamster fibroblasts (HA-1) as well as stable hydrogen peroxide (H2O2)-resistant (OC-14) and 95% O2-resistant (O2R95) variant cell lines derived from HA-1, after exposure to 72 h of hyperoxia (95% O2-5% CO2). Total HO activity, HO-1 protein, and HO-1 mRNA steady-state levels were assessed before exposure and daily during exposure to hyperoxia. Controls were exposed to 95% air-5% CO2. Confluent monolayers of O2R95 and OC-14 cells had increased basal immunoreactive HO-1 protein levels relative to HA-1 cells when the cells were grown in normoxia, and O2R95 had higher total basal HO activity. When exposed to hyperoxia for up to 3 days, O2R95 cells, which were resistant to oxygen-induced killing, did not show induction of HO-1 mRNA or increased immunoreactive protein, whereas OC-14 and HA-1, which were relatively more sensitive than O2R95 to oxygen-related cytotoxicity, demonstrated significant increases in HO-1 expression during exposure to hyperoxia. Basal ferritin protein levels were highest in the O2R95 cells, intermediate in OC-14, and lowest in HA-1, but ferritin protein did not increase further, with hyperoxic exposure, in any of the cell lines. We conclude that increased constitutive HO-1 expression is associated with resistance to hyperoxia, whereas induction of HO-1 mRNA is an index of oxidative injury, since it only occurs after cells have sustained cytotoxic injury. We also conclude that increased ferritin expression does not necessarily accompany increased HO-1 expression in oxidant stress. We speculate that HO-1 plays a role in protection against hyperoxic damage.
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PMID:Differences in basal and hyperoxia-associated HO expression in oxidant-resistant hamster fibroblasts. 889 16

Ferritin is an iron storage protein that is regulated at the transcriptional and transcriptional levels, resulting in a complex mixture of tissue- and condition-specific isoforms. The protein shell of ferritin is composed of 24 subunits of two types (heavy or light), which are encoded by two distinct and independently regulated genes. In the present studies, the isoform profile for lung ferritin differed from other tissues (liver, spleen, and heart) as determined by isoelectric focusing (IEF) and polyacrylamide gel electrophoresis (PAGE). Lung ferritin was composed of equal amounts of heavy and light subunits. Differences in isoform profiles were the result of tissue-specific differential expression of the ferritin subunit genes as demonstrated by Northern blot analyses. Like heart ferritin, lung ferritin exhibited a low iron content that did not increase extensively in response to iron challenge, which contrasts with ferritins isolated from liver or spleen. When animals were exposed to hyperoxic conditions (95% oxygen for up to 60 h), ferritin heavy subunit mRNA levels did not markedly change at any of the investigated time points. In contrast, ferritin light subunit mRNA increased severalfold in response to hyperoxic exposure. Investigation of the cytoplasmic distribution of ferritin mRNA showed that a substantial portion was associated with the ribonucleoprotein (RNP) fraction of the cytosol, suggesting that a pool of untranslated ferritin mRNA exists in the lung. Upon hyperoxic insult, all ferritin light subunit mRNA pools (RNP, monosomal, polysomal) were elevated, although a specific shift from RNP to polysomal pools was not evident. Therefore, the increase in translatable ferritin mRNA in response to hyperoxia resulted from transcriptional rather than specific translational activation. The observed pattern of light chain-specific transcriptional induction of ferritin is consistent with the hypothesis that hyperoxic lung injury is at least partially iron mediated.
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PMID:Pulmonary ferritin: differential effects of hyperoxic lung injury on subunit mRNA levels. 911 60

Heme oxygenase (HO) activity leads to accumulation of the antioxidant bilirubin, and degradation of the prooxidant heme. Moderate overexpression of the inducible form, HO-1, is associated with protection against oxidative injury. However, the role of HO-2 in oxidative stress has not been explored. We evaluated survival, indices of oxidative injury, and lung and HO expression in HO-2 null mutant mice exposed to > 95% O2 compared with wild-type controls. Similar basal levels of major lung antioxidants were observed, except that the knockouts had a twofold increase in total glutathione content. Despite increased HO-1 expression from HO-1 induction, knockout animals were sensitized to hyperoxia-induced oxidative injury and mortality, and also had significantly increased markers of oxidative injury before hyperoxic exposure. Furthermore, during hyperoxia, lung hemoproteins and iron content were significantly increased without increased ferritin, suggesting accumulation of available redox-active iron. These results demonstrate that the absence of HO-2 is associated with induction of HO-1 and increased oxygen toxicity in vivo, apparently due to accumulation of lung iron. These results suggest that HO-2 functions to augment the turnover of lung iron during oxidative stress, and that this function does not appear to be compensated for by induction of HO-1 in the knockouts.
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PMID:Oxygen toxicity and iron accumulation in the lungs of mice lacking heme oxygenase-2. 948 70

Iron uptake by cells may increase the intracellular pool of prooxidant iron prior to storage of iron within ferritin. Because hyperoxia is toxic to alveolar macrophages (AM) via mechanisms involving oxidant stress, we hypothesized that iron uptake by AM might promote hyperoxia-induced injury. To assess this hypothesis, we cultured AM recovered from healthy volunteers under conditions of normoxia or hyperoxia (60% or 95% oxygen) in media of varying iron content, including control media (3 microM iron) and media supplemented with iron (FeCl3; total iron 10, 20, or 40 microM). AM injury was assessed by measuring release of lactate dehydrogenase (LDH), phagocytic activity for yeast, and cytosolic concentrations of calcium ([Ca2+]i) as determined by ratio image analysis of AM loaded with the fluorescent calcium probe indo-1. There was dose-dependent accumulation of iron and ferritin synthesis in AM exposed to iron-supplemented media. Exposure of AM to hyperoxia (60% and 95% oxygen, 18 h) in control media increased LDH release and impaired phagocytic activity for yeast; however, similar hyperoxic exposures in iron-supplemented media significantly increased the cells' LDH release and decreased phagocytosis. Exposure to 95% oxygen increased the [Ca2+]i of AM over 18 h, but similar exposure in iron-supplemented media induced greater increases in [Ca2+]i. As compared with exposure to normoxia, exposure to hyperoxia (60% and 95% oxygen) also decreased iron uptake and, to a greater extent, ferritin synthesis by AM in iron-supplemented media. These data suggest that: (1) iron uptake promotes hyperoxic injury to AM; and (2) hyperoxia impairs the capacity of AM to sequester iron in ferritin.
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PMID:Iron uptake promotes hyperoxic injury to alveolar macrophages. 987 25

Heme oxygenase-1 (HO-1) confers protection against a variety of oxidant-induced cell and tissue injury. In this study, we examined whether exogenous administration of HO-1 by gene transfer could also confer protection. We first demonstrated the feasibility of overexpressing HO-1 in the lung by gene transfer. A fragment of the rat HO-1 cDNA clone containing the entire coding region was cloned into plasmid pAC-CMVpLpA, and recombinant adenoviruses containing the rat HO-1 cDNA fragment Ad5-HO-1 were generated by homologous recombination. Intratracheal administration of Ad5-HO-1 resulted in a time-dependent increase in expression of HO-1 mRNA and protein in the rat lungs. Increased HO-1 protein expression was detected diffusely in the bronchiolar epithelium of rats receiving Ad5-HO-1, as assessed by immunohistochemical studies. We then examined whether ectopic expression of HO-1 could confer protection against hyperoxia-induced lung injury. Rats receiving Ad5-HO-1, but not AdV-betaGal, a recombinant adenovirus expressing Escherichia coli beta-galactosidase, before exposure to hyperoxia (>99% O2) exhibited marked reduction in lung injury, as assessed by volume of pleural effusion and histological analyses (significant reduction of edema, hemorrhage, and inflammation). In addition, rats receiving Ad5-HO-1 also exhibited increased survivability against hyperoxic stress when compared with rats receiving AdV-betaGal. Expression of the antioxidant enzymes manganese superoxide dismutase (Mn-SOD) and copper-zinc superoxide dismutase (CuZn-SOD) and of L-ferritin and H-ferritin was not affected by Ad5-HO-1 administration. Furthermore, rats treated with Ad5-HO-1 exhibited attenuation of hyperoxia-induced neutrophil inflammation and apoptosis. Taken together, these data suggest the feasibility of high-level HO-1 expression in the rat lung by gene delivery. To our knowledge, we have demonstrated for the first time that HO-1 can provide protection against hyperoxia-induced lung injury in vivo by modulation of neutrophil inflammation and lung apoptosis.
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PMID:Exogenous administration of heme oxygenase-1 by gene transfer provides protection against hyperoxia-induced lung injury. 1019 78

Ferritin is an intracellular iron storage protein and its translation is inhibited by binding of iron regulatory proteins (IRPs) to the iron-responsive element (IRE) located in the 5' untranslated region of its mRNA. In this paper, we have investigated the effect of hyperoxia and iron on the binding activity of IRP-1 and the ferritin synthesis in mouse peritoneal macrophages. The binding activity of IRP-1 was increased and the ferritin synthesis was suppressed when the macrophages were cultured under hyperoxia, and the reverse occurred under hypoxia. Iron diminished the IRP-1-binding activity and the enhanced synthesis of ferritin. However, this effect was arrested under hyperoxia. Consistently, hypoxia-induced loss of binding activity of IRP-1 and the enhanced synthesis of ferritin were blocked in the presence of an iron chelator deferoxamine. These alterations of the binding activity of IRP-1 in response to oxygen and iron were not reproduced in the cell-free extract. The data suggest that in the macrophages oxygen and iron inversely act on the binding activity of IRP-1 and the ferritin synthesis, and that intracellular mechanism(s) to sense iron and/or oxygen is required for these actions.
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PMID:Effects of hyperoxia and iron on iron regulatory protein-1 activity and the ferritin synthesis in mouse peritoneal macrophages. 1134 46

Ceruloplasmin, metallothionein, and ferritin are metal-binding proteins with potential antioxidant activity. Despite evidence that they are upregulated in pulmonary tissue after oxidative stress, little is known regarding their influence on trace metal homeostasis. In this study, we have used copper- and zinc-containing superoxide dismutase (Cu/Zn SOD) transgenic-overexpressing and gene knockout mice and hyperoxia to investigate the effects of chronic and acute oxidative stress on the expression of these metalloproteins and to identify their influence on copper, zinc, and iron homeostasis. We found that the oxidative stress-mediated induction of ceruloplasmin and metallothionein in the lung had no effect on tissue levels of copper, iron, or zinc. However, Cu/Zn SOD expression had a marked influence on hepatic copper and iron as well as circulating copper homeostasis. These results suggest that ceruloplasmin and metallothionein may function as antioxidants independent of their role in trace metal homeostasis and that Cu/Zn SOD functions in copper homeostasis via mechanisms distinct from its superoxide scavenging properties.
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PMID:Cellular response of antioxidant metalloproteins in Cu/Zn SOD transgenic mice exposed to hyperoxia. 1140 60


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