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)

An inducible fluorescent system based on GFP is presented that allows for the uncoupling of dendritic mRNA transport from subsequent protein synthesis at the single cell level. The iron-responsive element (IRE) derived from ferritin mRNA in the 5'-UTR of the GFP reporter mRNA renders translation of its mRNA dependent on iron. The addition of the full-length 3'-UTR of the Ca(2+)/calmodulin-dependent protein kinase II alpha (CaMKIIalpha) after the stop codon of the GFP reading frame targets the reporter mRNA to dendrites of transfected fully polarized hippocampal neurons. As we show by time-lapse videomicroscopy, iron specifically turns on GFP reporter protein synthesis in a single transfected hippocampal neuron. We investigate whether GFP expression is affected--in addition to iron--by synaptic activity. Interestingly, synaptic activity has a clear stimulatory effect. Most importantly, however, this activity-dependent protein synthesis is critically dependent on the presence of the full-length 3'-UTR of CaMKIIalpha confirming that this sequence contains translational activation signals. The IRE-based system represents a new convenient tool to study local protein synthesis in mammalian cells where mRNA localization to a specific intracellular compartment occurs.
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PMID:A GFP-based system to uncouple mRNA transport from translation in a single living neuron. 1268 10

The Alzheimer's amyloid precursor protein (APP) is the metalloprotein that is cleaved to generate the pathogenic Abeta peptide. We showed that iron closely regulated the expression of APP by 5'-untranslated region (5'-UTR) sequences in APP mRNA. Iron modulated APP holoprotein expression by a pathway similar to iron control of the translation of the ferritin-L and -H mRNAs by iron-responsive elements in their 5'-UTRs. APP gene transcription is also responsive to copper deficit where the Menkes protein depleted fibroblasts of copper to suppress transcription of APP through metal regulatory and copper regulatory sequences upstream of the APP 5' cap site. APP is a copper-zinc metalloprotein and chelation of Fe(3+) by desferrioxamine and Cu(2+) by clioquinol appeared to provide effective therapy for the treatment of AD in limited patient studies. We have introduced an RNA-based screen for small APP 5'-UTR binding molecules to identify leads that limit APP translation (but not APLP-1 and APLP-2) and amyloid Abeta peptide production. A library of 1200 drugs was screened to identify lead drugs that limited APP 5'-UTR-directed translation of a reporter gene. The efficacy of these leads was confirmed for specificity in a cell-based secondary assay to measure the steady-state levels of APP holoprotein relative to APLP-1/APLP-2 by Western blotting. Several chelators were identified among the APP 5'-UTR directed leads consistent with the presence of an IRE stem-loop in front of the start codon of the APP transcript. The APP 5'-UTR-directed drugs--desferrioxamine (Fe(3+) chelator), tetrathiomolybdate (Cu(2+) chelator), and dimercaptopropanol (Pb(2+) and Hg(2+) chelator)--each suppressed APP holoprotein expression (and lowered Abeta peptide secretion). The novel anticholinesterase phenserine also provided "proof of concept" for our strategy to target the APP 5'-UTR sequence to identify "anti-amyloid" drugs. We further defined the interaction between iron chelation and phenserine action to control APP 5'-UTR-directed translation in neuroblastoma (SY5Y) transfectants. Phenserine was most efficient to block translation under conditions of intracellular iron chelation with desferrioxamine suggesting that this anticholinesterase operated through an iron (metal)-dependent pathway at the APP 5'-UTR site.
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PMID:The integrated role of desferrioxamine and phenserine targeted to an iron-responsive element in the APP-mRNA 5'-untranslated region. 1568 99

A large body of evidence indicates that the level of serum ferritin parallels the concentration of storage iron within the body, regardless of the cell type in which it is stored. Elevated serum ferritin levels, in the absence of inflammation and liver disease, are currently taken to indicate increased iron stores and require further investigation to determine the site of iron overload. Until recently, the only genetic disorder with elevated serum ferritin levels known in Western countries was hereditary HLA-related HFE-related genetic haemochromatosis in Caucasians (HFE, OMIM 235200), and a high serum ferritin in apparently healthy persons was considered suggestive of this disease. In the last few years, at least two novel genetic disorders of iron metabolism presenting as unexplained hyperferritinaemia have been recognized. The first one is hereditary hyperferritinaemia/cataract syndrome (HHCS, OMIM 600886). HHCS arises from various point mutations or deletions within a protein binding sequence in the 5'-UTR of the L-ferritin mRNA that results in increased efficiency of L-ferritin translation. The second one is haemochromatosis type 4, or HFE4 (OMIM 606069), or ferroportin disease. In this latter condition, reticuloendothelial iron overload and hyperferritinaemia are caused by loss-of-function mutations in the SLC11A3 gene that mainly impair macrophage iron recycling. These genetic disorders should be taken into account in the differential diagnosis of unexplained hyperferritinaemia.
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PMID:Role of ferritin and ferroportin genes in unexplained hyperferritinaemia. 1573 88

Studies employing mRNA transfection are currently limited by a lack of transcription vectors for generating a long poly(A) tail-containing mRNA and published methods for efficient mRNA transfection. We have constructed a transcription vector containing firefly luciferase gene (pBS-FLuc-A100) to generate luciferase mRNA with A100 tail followed by no heterologous sequence. The pBS-FLuc-A100 was propagated in XL1-Blue, in which the plasmid was more stable than in other bacterial strains. Optimal mRNA transfection conditions were determined using TransMessenger Transfection Reagent (Qiagen) and yeast tRNA as a carrier. Firefly luciferase expression, which peaked at about 12 h post-transfection, was detected with as little as 5 ng mRNA and was linear with mRNA amount up to 100 ng. When cells were transfected with luciferase mRNA containing different lengths of poly(A) tail, luciferase expression increased proportionally with poly(A) tail length up to 60A residues and then declined. Cell lines from monkey, mouse, and rat were transfected efficiently by this method. Like cellular ferritin heavy chain mRNA, which contains an iron response element in its 5'UTR, translation of transfected luciferase mRNA containing the 5'UTR of ferritin mRNA was iron-dependent. Our results demonstrate that the poly(A) vector and the transcription method described will be useful to study the regulation of gene expression at the mRNA level by UTRs.
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PMID:Optimized transfection of mRNA transcribed from a d(A/T)100 tail-containing vector. 1580 89

Plasma ferritin is an important extracellular iron storage molecule, whose concentration increases drastically in cancer and infection. During infection, the pathogen usurps host iron for its survival and pathogenicity; hence, maintenance of the plasma ferritin level during infection is a crucial host defence mechanism. In this study, the horseshoe crab plasma ferritin complex was purified, characterized, and its involvement in innate immune defence was investigated. The plasma ferritin appears as a 21-kDa subunit on SDS-PAGE. Full-length ferritin-H cDNAs (CrFer-H1 and CrFer-H2) were cloned. Analysis of the 5' UTR indicates the existence of a functional iron-response element, suggesting that both the CrFer-H genes may be post-transcriptionally regulated. Northern analysis shows that the CrFer-H is ubiquitously expressed. Within 3 h of lipopolysaccharide challenge, the gene is up-regulated by > 12-fold. In contrast, iron-loading did not result in any significant change. When challenged with Pseudomonas aeruginosa, the plasma ferritin disappeared between 6-48 h and re-appeared thereafter, suggesting that during infection, ferritin may be concealed intracellularly as it withholds iron from the invading pathogen. Taken together, these results provide insights into the importance of plasma ferritin as an evolutionarily conserved molecule for the iron-withholding strategy of innate immunity.
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PMID:The response of ferritin to LPS and acute phase of Pseudomonas infection. 1626 99

Hereditary hyperferritinemia cataract syndrome (HHCS) is caused by mutations in the regulatory iron responsive element (IRE) in the 5'UTR of the L-ferritin transcript that reduce binding affinity to the iron regulatory proteins (IRPs) and lead to a constitutive upregulation of the protein in tissue and serum. Twenty-nine mutations have been reported within the L-ferritin (FTL) IRE sequence, 21 of which were available to us. In addition, we included in this study three new mutations. Thus, we analyzed 24 mutations spanning over a DNA stretch of 48 nucleotides, including four deletions 2-29 nucleotides long and 20 substitutions, seven of which were conservative transversions. With this unique experimental model we developed a microchip diagnostic platform for identifying known molecular defects in the L-ferritin IRE structure with a microelectronic array approach, which we optimized after studying the effects of various parameters. The system enables electronic deposition of biotinylated amplicons to selected pads. Under optimized conditions, no cross-hybridization was found, even for mutations that affected the same or adjacent nucleotide positions. The same cartridge could be serially hybridized with all the 24 reporter probe sets, which allowed correct genotyping right up until the end of the analysis. Extensive validation on 200 samples in a blinded fashion gave total concordance of results. This pilot study represents a first step toward developing a diagnostic microchip for large-scale analyses for epidemiological studies and screening of mutations associated with iron disorders.
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PMID:Microelectronic DNA chip for hereditary hyperferritinemia cataract syndrome, a model for large-scale analysis of disorders of iron metabolism. 1639 71

Ferritin is a major eukaryotic protein and in humans is the protein of iron storage. A partial gene fragment of ferritin (255 bp) taken from the total RNA of Periserrula leucophryna, was amplified by RT-PCR using oligonucleotide primers designed from the conserved metal binding domain of eukaryotic ferritin and confirmed by DNA sequencing. Using the 32P-labeled partial ferritin cDNA fragment, 28 different clones were obtained by the screening of the P. leucophryna cDNA library prepared in the Uni-ZAP XR vector, sequenced and characterized. The longest clone was named the PLF (Periserrula leucophryna ferritin) gene and the nucleotide and amino acid sequences of this novel gene were deposited in the GenBank databases with accession numbers DQ207752 and ABA55730, respectively. The entire cDNA of PLF clone was 1109 bp (CDS: 129-653), including a coding nucleotide sequence of 525 bp, a 5'-untranslated region of 128 bp, and a 3'-noncoding region of 456 bp. The 5'-UTR contains a putative iron responsive element (IRE) sequence. Ferritin has an open reading frame encoding a polypeptide of 174 amino acids including a hydrophobic signal peptide of 17 amino acids. The predicted molecular weights of the immature and mature ferritin were calculated to be 20.3 kDa and 18.2 kDa, respectively. The region encoding the mature ferritin was subcloned into the pT7-7 expression vector after PCR amplification using the designed primers and included the initiation and termination codons; the recombinant clones were expressed in E. coli BL21(DE3) or E. coli BL21(DE3)pLysE. SDS-PAGE and western blot analysis showed that a ferritin of approximately 18 kDa (mature form) was produced and that by iron staining in native PAGE, it is likely that the recombinant ferritin is correctly folded and assembled into a homopolymer composed of a single subunit.
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PMID:Characterization, cloning and expression of the ferritin gene from the Korean polychaete, Periserrula leucophryna. 1655 18

In hematology patients on chronic transfusion regimes, liver diseases are frequent, and mostly related to the agents transmitted by blood products and concominant iron deposition in liver. Besides hepatitis B (HBV) and C (HCV) viruses, new viral agents like hepatitis G virus (HGV) and TorqueTeno virus (TTV) are identified in these patients, although their association with any pathology or disease is not yet proved. In the present work, the authors studied the clinical importance of TTV in Turkish multitransfused patients with thalassemia. Forty-six healthy and 57 thalassemic patients were enrolled in the study. TTV was detected in serum samples by 3'-UTR nested PCR. Transaminase and ferritin levels, hepatitis B and C virus markers and number of transfusions were interpreted for possible association with TTV infection. As a result, TTV was detected in 63% of the thalassemia and 54% of the control patients. Prevalence of TTV infection, clinical features, laboratory data, and annual transfusion numbers of TTV-positive and -negative patients were not observed to be statistically significant. In conclusion, in Turkish patients with thalassemia, TTV infection cannot be considered as a risk factor for liver disease.
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PMID:Transfusion-transmitted virus prevalence in Turkish patients with thalassemia. 1662 77

The discovery of iron-responsive elements (IREs), along with the identification of iron regulatory proteins (IRP1, IRP2), has provided a molecular basis for our current understanding of the remarkable post-transcriptional regulation of intracellular iron homeostasis. In iron-depleted conditions, IRPs bind to IREs present in the 5'-UTR of ferritin mRNA and the 3'-UTR of transferrin receptor (TfR) mRNA. Such binding blocks the translation of ferritin, the iron storage protein, and stabilizes TfR mRNA, whereas the opposite scenario develops when iron in the intracellular transit pool is plentiful. Nitrogen monoxide (commonly designated nitric oxide; NO), a gaseous molecule involved in numerous functions, is known to affect cellular iron metabolism via the IRP/IRE system. We previously demonstrated that the oxidized form of NO, NO(+), causes IRP2 degradation that is associated with an increase in ferritin synthesis [Kim, S & Ponka, P (2002) Proc Natl Acad Sci USA99, 12214-12219]. Here we report that sodium nitroprusside (SNP), an NO(+) donor, causes a dramatic and rapid increase in ferritin synthesis that initially occurs without changes in the RNA-binding activities of IRPs. Moreover, we demonstrate that the translational efficiency of ferritin mRNA is significantly higher in cells treated with SNP compared with those incubated with ferric ammonium citrate, an iron donor. Importantly, we also provide definitive evidence that the iron moiety of SNP is not responsible for such changes. These results indicate that SNP-mediated increase in ferritin synthesis is, in part, due to an IRP-independent and NO(+)-dependent post-transcriptional, regulatory mechanism.
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PMID:Iron regulatory protein-independent regulation of ferritin synthesis by nitrogen monoxide. 1691 29

In animals, aconitase is a bifunctional protein. When an iron-sulfur cluster is present in its catalytic center, aconitase displays enzymatic activity; when this cluster is lost, it switches to an RNA-binding protein that regulates the translatability or stability of certain transcripts. To investigate the role of aconitase in plants, we assessed its ability to bind mRNA. Recombinant aconitase failed to bind an iron responsive element (IRE) from the human ferritin gene. However, it bound the 5' UTR of the Arabidopsis chloroplastic CuZn superoxide dismutase 2 (CSD2) mRNA, and this binding was specific. Arabidopsis aconitase knockout (KO) plants were found to have significantly less chlorosis after treatment with the superoxide-generating compound, paraquat. This phenotype correlated with delayed induction of the antioxidant gene GST1, suggesting that these KO lines are more tolerant to oxidative stress. Increased levels of CSD2 mRNAs were observed in the KO lines, although the level of CSD2 protein was not affected. Virus-induced gene silencing (VIGS) of aconitase in Nicotiana benthamiana caused a 90% reduction in aconitase activity, stunting, spontaneous necrotic lesions, and increased resistance to paraquat. The silenced plants also had less cell death after transient co-expression of the AvrPto and Pto proteins or the pro-apoptotic protein Bax. Following inoculation with Pseudomonas syringae pv. tabaci carrying avrPto, aconitase-silenced N. benthamiana plants expressing the Pto transgene displayed a delayed hypersensitive response (HR) and supported higher levels of bacterial growth. Disease-associated cell death in N. benthamiana inoculated with P. s. pv. tabaci was also reduced. Taken together, these results suggest that aconitase plays a role in mediating oxidative stress and regulating cell death.
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PMID:Aconitase plays a role in regulating resistance to oxidative stress and cell death in Arabidopsis and Nicotiana benthamiana. 1701 49

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