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)

Nephrotoxic lesions induced by cisplatin in rats are characterized by acute tubular necrosis in the outer stripe of the medulla. The purpose of this study was to examine the potential role of changes in metal binding proteins, and iron and copper content in urine and renal tissue in cisplatin-induced nephrotoxicity. Cisplatin was administered intravenously to groups of 20 rats at single doses of 0, 1, 2.5, and 5 mg/kg and rats were sacrificed at 1, 2, 3 and 6 days after treatment. Increased serum BUN and creatinine were observed at a dose of 5 mg/kg cisplatin on day 2 through day 6. Increased urinary copper excretion coincided with necrosis and increased BUN and creatinine on day 3 in the high-dose group. Evidence of renal injury was apparent histologically as karyomegaly at all dose levels as early as 48 hours after injection of cisplatin, prior to increases in urinary copper levels. No change in the distribution of metal binding proteins (transferrin, ferritin, ceruloplasmin, and metallothionein) evaluated by immunohistochemical staining, was seen. Based upon these results, it is unlikely that changes in metal excretion play a primary role in cisplatin-induced nephrotoxicity however, changes in nuclear function indicated by karyomegaly may be involved in early renal injury.
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PMID:Assessment of the possible role of iron and copper in cisplatin-induced nephrotoxicity in the rat. 816 68

The essential nutrients zinc (Zn) and selenium (Se) provide an antioxidant function to animal cells by very different mechanisms. Se is an integral part of Se-dependent glutathione peroxidases, a group of water-soluble enzymes that catalyze the destruction of water-soluble and, in some cases, membrane-bound hydroperoxides. In dietary Se deficiency, Se-dependent glutathione peroxidase activities are decreased; at Se intakes above that which is required for optimal growth, there is a slight to moderate increase in Se-dependent glutathione peroxidase activities. Because of the enzymatic nature of the major role of Se as an antioxidant, Se can be categorized as having a general antioxidant function, controlling peroxide levels in cells by degrading hydroperoxides. On the other hand, Zn functions as an antioxidant only at specific sites, and is not a required cofactor for an antioxidant enzyme. Although Zn plays a structural role in the enzyme Cu, Zn superoxide dismutase, the activity of this enzyme is not decreased in Zn deficiency and its activity is usually depressed at high Zn intakes. Zn may function as a site-specific antioxidant by two mechanisms. Firstly, it competes with Fe and Cu for binding to cell membranes and some proteins, displacing these redox-active metals and making them more available for binding to ferritin and metallothionein, respectively. Secondly, Zn binds the sulfhydryl groups in proteins, protecting them from oxidation. Zn status does not directly control tissue peroxide levels but can protect specific molecules against oxidative and peroxidative damage.
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PMID:Zinc and selenium, site-specific versus general antioxidation. 831 37

Weight loss and impaired nutritional status are associated with increased complications following surgery. This study aimed to assess the effect of nutritional status on the magnitude of the acute phase protein response, and determine if this is associated with changes in the magnitude of the related cytokine responses. Nineteen patients (10 wellnourished, 9 malnourished on the basis of body composition) undergoing major abdominal surgery were studied by frequent blood sampling in the early postoperative period. There was a significant reduction in the plasma C-reactive protein response in the malnourished group, but no difference between the groups in the responses of alpha 1-antitrypsin, alpha 1-acid glycoprotein, or in the trace elements iron or zinc, which reflect induction of ferritin and metallothionein. There was an early increase in IL-6, soluble receptors of TNF, and in IL-1 receptor antagonist in both groups, but no detectable increase in plasma IL-1 or TNF. There was no difference between the wellnourished and malnourished group for any of these markers of activation of the cytokine network. Weight loss is therefore associated with a reduction in aspects of the acute phase response, but this is due to impaired effectiveness rather than reduced magnitude of the cytokine response.
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PMID:The effect of nutritional status on the cytokine and acute phase protein responses to elective surgery. 858 69

Iron and copper deposition were examined in patients with chronic active viral hepatitis (CAH) and posthepatitic liver cirrhosis (LC) by Berlin blue, rhodanine, or Victoria blue staining and X-ray microanalysis. Considerable iron or copper deposition was demonstrated in the peripheral zones of hepatic lobules in both CAH (53% of specimens) and LC (63% of specimens). Frozen sections taken from the 2 CAH surgical sections with iron depositions were examined by photoncounting image analysis, and superoxide liberation from the metal granules were demonstrated. In areas of metal deposition, vacuolation of liver cell nuclei, accumulation of lipofuscin, and induction of metallothionein (69% of rhodanine- or Victoria blue-positive specimens) were often demonstrated, whereas induction of ferritin was found only in 14% of Berlin blue-positive specimens. The PCNA index was significantly lower in areas of metal deposition than in the adjacent areas without metal deposition, indicating lowered proliferative capability in the former. These results indicate that cell-mediated immune mechanisms causing the disturbance of bile secretion and heavy metal deposition in the peripheral zones of hepatic lobules may be involved in the progression of viral hepatitis from its acute phase to CAH and finally to LC phase, resulting in piecemeal necrosis. However, cholangitis could not be demonstrated in the present study.
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PMID:Iron and copper deposition in chronic active hepatitis and liver cirrhosis; pathogenetic role in progressive liver cell damage. 863 Apr 40

The existence of the blood-retinal barrier means that proteins that protect the retina from damage by reactive oxygen species must either be made locally or specifically transported across the barrier cells; however, such transepithelial transport does not seem to occur. Among the circulatory proteins that protect against iron-catalyzed production of free radicals are apo-transferrin, which binds ferric iron and has previously been shown to be made by cells of the neural retina (Davis and Hunt, 1993, J. Cell Physiol., 156:280-285), and the extracellular antioxidant, apo-hemopexin, which binds free heme (iron-protoporphyrin IX). Since hemorrhage and heme release can be important contributing factors in retinal disease, evidence of a hemopexin-based retinal protection system was sought. The human retina has been shown to contain apo-hemopexin which is probably synthesized locally since its mRNA can be detected in retinal tissue dissected from human donor eyes. It is likely that the retina contains a mechanism for the degradation of hemopexin-bound heme since the blood-retinal barrier also precludes the exit of heme-hemopexin from the retina. Retinal pigment epithelial cells have been found to bind and internalize heme-hemopexin in a temperature-dependent, saturable, and specific manner, analogous to the receptor-mediated endocytic system of hepatoma cells. Moreover, the binding of heme-hemopexin to the cells stimulates the expression of heme oxygenase-1, metallothionein-1, and ferritin.
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PMID:Hemopexin in the human retina: protection of the retina against heme-mediated toxicity. 864 24

The subcellular distribution and binding of 241Am and 137Cs in the visceral mass of the oyster Crassostrea gigas were investigated following exposure to sea water contaminated with these radionuclides. 241Am was predominantly sequestered by the lysosomal system. Approximately, 10% of 241Am was associated with soluble macromolecules. 241Am was bound to lipofuscin, ferritin and to unidentified ligands of 60 to 15 kdaltons mol. wt. No evidence was found for binding of 241Am to metallothionein synthesized de novo. In contrast, only small amounts of 137Cs were present in lysosomes and 137Cs was not associated with soluble cellular proteins. These results indicate that they enter complete separate metabolic pathways.
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PMID:Identification of 137Cs-and 241Am-binding sites in the oyster Crassostrea gigas. 879 36

Zinc is a feature trace element of pigment cells and tissues. Organelles, in which melanin is synthesized and stored, i.e. melanosomes, represent a zinc reservoir at the subcellular level. In order to understand function of metals in tissues, cells and their constituents, knowledge is needed on metal interactions with intracellular targets. The possible zinc ligands in pigment cells include melanin, metallothionein, melanotransferrin, B700 and related proteins, ferritin, zinc enzymes and low molecular weight ligands. Areas of a special interest in relation of pigment cells and structures to zinc--such as zinc effect on melanogenesis, zinc excretion and buffering by melanosomes, zinc function in free radical processes as well as zinc role in melanomas--have been reviewed. High level of zinc in pigment cells may indicate a physiological defense against the potential danger of oxidative stress.
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PMID:Zinc in pigmented cells and structures, interactions and possible roles. 886 2

A subtractive hybridisation technique was developed to clone cDNAs representing genes that showed enhanced expression during leaf senescence in Brassica napus. A number of different genes were identified that, when analysed by northern hybridisation, showed different patterns of expression during leaf development but were all expressed at increased levels during senescence. Sequence analysis of these cDNAs showed that several types of genes were found including two different proteases, glutamine synthetase, ATP sulphurylase, catalase, metallothionein, ferritin and an antifungal protein. The possible roles of these gene products in the senescence process are discussed.
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PMID:Leaf senescence in Brassica napus: cloning of senescence related genes by subtractive hybridisation. 910 6

The zinc content in the pancreatic beta cell is among the highest of the body, but information about which proteins might handle zinc in the beta cell is unknown. In the present work RT-PCR was used to obtain clues about the developmental expression of genes encoding metal complexing proteins in the pancreatic islets of the normal Sprague-Dawley rat and the BB diabetes resistant (BBDR) rat. The BBDR rat possesses beta cells genetically identical to the BB diabetes prone (BBDP) rat which exhibits an autoimmune diabetes quite similar to type 1 diabetes in humans, but in contrast to the BBDP rat, the islets of the BBDR rat are amenable to study because they are not destroyed by immune attack. There was no difference in the expression of any of the genes studied between the two strains of rats. mRNAs encoding zinc transport proteins ZnT-1 and ZnT-4, as well as calreticulin, ferritin heavy and light chains, metallothionein 1, metallothionein 3, Nramp1, Nramp2, transferrin, and the transferrin receptor were readily detected in pancreatic islets of 10-day-old, 5-week-old, and adult (60 to 90-day-old) rats. In contrast to the islet, mRNAs encoding metallothionein 3, Nramp1, Nramp2, ZnT-2, ZnT-3, and ZnT-4 and transferrin were not detected in the whole pancreas of adult Sprague-Dawley rats. In the whole pancreas of 3-day-old rats, ZnT-1 was the only zinc transporter mRNA detected and its level was moderate. Moderate to high levels of mRNA encoding calreticulin and the light and heavy chains of ferritin, as well as transferrin and the transferrin receptor, were detected in whole pancreas at 3 days. ZnT-2 and ZnT-3 mRNAs were present in low to moderate levels in pancreatic islets of 10-day and 5-week-old rats, but were absent in 3-day-old pancreas and islets of adult animals. These results indicate that expression of these proteins is developmentally regulated in the islet. In both Sprague-Dawley and BB rats, high levels of mRNAs encoding known beta cell proteins as controls (cytochrome b558, quinone reductase, the tricarboxylic acid transport protein and the receptors for IGF-1 and IGF-2 and insulin) were present in islets from 10 days to adulthood. Levels of mRNAs encoding quinone reductase, the tricarboxylic acid transport protein cytochrome b558 and the receptors for IGF-2 and insulin, were low or absent in 3-day-old and adult pancreas. BB rats were studied in an attempt to discern a difference between normal rats and the BB strain of rats, because, perhaps, delayed expression of a beta cell protein results in failure of immune tolerance against the beta cell. According to this paradigm none of the proteins examined in the current study appear to be a candidate for initiating an immune response in the BB rat.
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PMID:Survey of mRNAs encoding zinc transporters and other metal complexing proteins in pancreatic islets of rats from birth to adulthood: similar patterns in the Sprague-Dawley and Wistar BB strains. 1096 17

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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