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 yellow fever mosquito, Aedes aegypti, must blood feed in order to complete her life cycle. The blood meal provides a high level of iron that is required for egg development. We are interested in developing control strategies that interfere with this process. We show that A. aegypti larval cells synthesize and secrete ferritin in response to iron exposure. Cytoplasmic ferritin is maximal at low levels of iron, consists of both the light chain (LCH) and heavy chain (HCH) subunits and reflects cytoplasmic iron levels. Secreted ferritin increases in direct linear relationship to iron dose and consists primarily of HCH subunits. Although the messages for both subunits increase with iron treatment, our data indicate that mosquito HCH synthesis could be partially controlled at the translational level as well. Importantly, we show that exposure of mosquito cells to iron at low concentrations increases cytoplasmic iron, while higher iron levels results in a decline in cytoplasmic iron levels indicating that excess iron is removed from mosquito cells. Our work indicates that HCH synthesis and ferritin secretion are key factors in the response of mosquito cells to iron exposure and could be the primary mechanisms that allow these insects to defend against an intracellular iron overload.
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PMID:Secreted ferritin: mosquito defense against iron overload? 1650 79

Ferritin, a cytosolic iron storage protein composed of 24 subunits of heavy chain and light chain, is an intracellular protein primarily involved in iron metabolism. It can sequester up to 4500 ferric ions in its inner core to protect cells against toxicity of iron. Ferritin is known to play important roles in detoxification and is also involved in immunity processes. In this study, a full-length ferritin cDNA was cloned from the haemocyte of the Pacific white shrimp, Litopenaeus vannamei: it comprises 1249 bp, including 132 bp in the 5'-untranslated region, 510 bp in the open reading frame which encodes 170 amino acid residues, and 607 bp in the 3'-untranslated region. Alignments of the deduced amino acid sequence showed that the Pacific white shrimp ferritin shares 74%, 69%, 62%, 67%, 50% and 48% identity with crayfish, tick, brine shrimp, oyster, human and rat, respectively. The tissue-specific expression pattern was examined by reverse transcription polymerase chain reaction and real-time quantitative PCR. The ferritin mRNA is expressed in various tissues of the shrimp in the order of haemocyte, midgut gland, brain ganglion, gill, hepatopancreas, abdominal ganglion, eyestalk, muscle, thoracic ganglion, and heart.
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PMID:Molecular cloning and tissue distribution of ferritin in Pacific white shrimp (Litopenaeus vannamei). 1654 2

Comparison of cDNA libraries derived from the spinal cord with those derived from the visual cortex by means of forward and reverse subtractive hybridization resulted in the cataloguing of 60 genes differentially expressed in the spinal cord. 1. The differentially expressed genes represent a mixture of novel and known sequences with known and unknown protein products. 2. The possibility that the subtraction process was simply overwhelmed by background sequences was significantly reduced by several observations including comparisons between suppression subtractive hybridization (SSH) and mirror orientation selection (MOS). 3. Nearly half of all genes up-regulated in the spinal cord are of myelin origin. 4. Twenty-five percent of all up-regulated clones in the spinal cord versus the visual cortex are for proteolipid protein. 5. Ten percent of all up-regulated clones in spinal cord versus visual cortex are for ferretin heavy chain, which is known to be produced in oligodendroglial cells in the CNS. 6. Two of the up-regulated sequences, proteolipid protein and N-myc down-regulated gene 4, are identified with genes known to directly affect neuron survival. 7. Two of the up-regulated genes, ferritin and transferrin, are indirectly associated with apoptosis through their ability to sequester iron and reduce free radical formation.
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PMID:Spinal cord transcriptome analysis using suppression subtractive hybridization and mirror orientation selection. 1661 32

Pretreatment with L-leucyl-L-leucine methyl ester (LLME) is a prerequisite for peripheral blood mononuclear cells (PBMCs) to produce antigen-specific antibodies when sensitized with an antigen. Little information, however, is available regarding the mechanisms involved in LLME-induced augmentation of antibody production from PBMCs that are antigen sensitized. In the present study, we attempted to identify the genes involved in the suppression of antibody production from PBMCs that was not treated with LLME, but sensitized with an antigen. Using subtractive screening, we obtained 63 independent genes, including 17 EST genes, that are specific for LLME-nontreated PBMC. Among these genes, the expression of heavy chain ferritin (H-ferritin), CC chemokine ligand 18 (CCL18), and matrix metalloproteinase 12 (MMP12) were augmented in LLME-nontreated PBMCs, suggesting that inflammatory factors might be involved in the suppression of antibody production in LLME-nontreated PBMCs.
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PMID:Identification of genes involved in the suppression of antibody production from human peripheral blood lymphocytes. 1663 65

Ferritin is the major iron-storage protein present in all cells. It generally contains 24 subunits, with different ratios of heavy chain (H) to light chain (L), in the shape of a hollow sphere hosting up to 4500 ferric Fe atoms inside. H-rich ferritins catalyse the oxidation of iron(II), while L-rich ferritins promote the nucleation and storage of iron(III). Several X-ray structures have been determined, including those of L-chain ferritins from horse spleen (HoSF), recombinant L-chain ferritins from horse (HoLF), mouse (MoLF) and bullfrog (BfLF) as well as recombinant human H-chain ferritin (HuHF). Here, structures have been determined of two crystal forms of recombinant human L-chain ferritin (HuLF) obtained from native and perdeuterated proteins. The structures show a cluster of acidic residues at the ferrihydrite nucleation site and at the iron channel along the threefold axis. An ordered Cd2+ structure is observed within the iron channel, offering further insight into the route and mechanism of iron transport into the capsid. The loop between helices D and E, which is disordered in many other L-chain structures, is clearly visible in these two structures. The crystals generated from perdeuterated HuLF will be used for neutron diffraction studies.
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PMID:Structure of human ferritin L chain. 1679 Sep 36

Ferritin-binding protein (FBP) is known to interact with circulating ferritins in mammals. Canine FBPs were purified from canine serum by affinity chromatography and were identified as IgM, IgG, and IgA by immunoblotting with alkaline phosphatase-labeled antibodies to canine IgM, IgG, and IgA heavy chains. Following further purification by application to a Sephacryl S-300 column, canine FBPs were separated into 81.3- and 27.7-kDa bands by sodium dodecyl sulfate-polyacryamide gel electrophoresis, and the 81.3-kDa band reacted with the anti-canine IgM heavy chain antibody. Purified canine FBP bound to canine liver ferritin, but not to canine albumin and transferrin. FBP showed greater binding to the expressed bovine ferritin H-chain homopolymer than to the expressed bovine ferritin L-chain homopolymer. The binding of FBP with canine liver ferritin was dose-dependently inhibited by anti-rat liver ferritin antibody, and the anti-ferritin antibody dissociated the bound FBP in a dose-dependent manner, even after binding FBP with liver ferritin. The canine ferritin H subunit peptide fragment with amino acid residues 148-155 (NH(2)-GDHVTNLR-COOH) in its C-terminal region was recognized by FBP. These results indicate that canine serum FBPs are autoantibodies to ferritin (IgM, IgG, and IgA) and that anti-ferritin autoantibody (IgM) recognizes the C-terminal region of ferritin H subunit.
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PMID:Purification and characterization of canine serum ferritin-binding proteins. 1679 69

Ferritin, the iron storage protein, was recently suggested to be a candidate reporter for the detection of gene expression by magnetic resonance imaging (MRI). Here we report the generation of TET:EGFP-HAferritin (tet-hfer) transgenic mice, in which tissue-specific inducible transcriptional regulation of expression of the heavy chain of ferritin could be detected in vivo by MRI. We show organ specificity by mating the tet-hfer mice with transgenic mice expressing tetracycline transactivator (tTA) in liver hepatocytes and in vascular endothelial cells. Tetracycline-regulated overexpression of ferritin resulted in specific alterations of the transverse relaxation rate (R(2)) of water. Transgene-dependent changes in R(2) were detectable by MRI in adult mice, and we also found fetal developmental induction of transgene expression in utero. Thus, the tet-hfer MRI reporter mice provide a new transgenic mouse platform for in vivo molecular imaging of reporter gene expression by MRI during both embryonic and adult life.
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PMID:MRI detection of transcriptional regulation of gene expression in transgenic mice. 1735 27

Cytoplasmic serine hydroxymethyltransferase (cSHMT) enzyme levels are elevated by the expression of the heavy chain ferritin (H ferritin) cDNA in cultured cells without corresponding changes in mRNA levels, resulting in enhanced folate-dependent de novo thymidylate biosynthesis and impaired homocysteine remethylation. In this study, the mechanism whereby H ferritin regulates cSHMT expression was determined. cSHMT translation is shown to be regulated by an H ferritin-responsive internal ribosome entry site (IRES) located within the cSHMT mRNA 5'-untranslated region (5'-UTR). The cSHMT 5'-UTR exhibited IRES activity during in vitro translation of bicistronic mRNA templates, and in MCF-7 and HeLa cells transfected with bicistronic mRNAs. IRES activity was depressed in H ferritin-deficient mouse embryonic fibroblasts and elevated in cells expressing the H ferritin cDNA. H ferritin was shown to interact with the mRNA-binding protein CUGBP1, a protein known to interact with the alpha and beta subunits of eukaryotic initiation factor eIF2. Small interference RNA-mediated depletion of CUGBP1 decreased IRES activity from bicistronic templates that included the cSHMT 3'-UTR in the bicistronic construct. The identification of this H ferritin-responsive IRES represents a mechanism that accounts for previous observations that H ferritin regulates folate metabolism.
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PMID:A ferritin-responsive internal ribosome entry site regulates folate metabolism. 1770 48

The growth and virulence of Mycobacterium tuberculosis depends on its ability to scavenge host iron, an essential and limited micronutrient in vivo. In this study, we show that ferric iron accumulates both intra- and extra-cellularly in the primary lung lesions of guinea pigs aerosol-infected with the H37Rv strain of M. tuberculosis. Iron accumulated within macrophages at the periphery of the primary granulomatous lesions while extra-cellular ferric iron was concentrated in areas of lesion necrosis. Accumulation of iron within primary lesions was preceded by an increase in expression of heavy chain (H) ferritin, lactoferrin and receptors for transferrin, primarily by macrophages and granulocytes. The increased expression of intra-cellular H ferritin and extra-cellular lactoferrin, more so than transferrin receptor, paralleled the development of necrosis within primary lesions. The deposition of extra-cellular ferric iron within necrotic foci coincided with the accumulation of calcium and phosphorus and other cations in the form of dystrophic calcification. Primary lung lesions from guinea pigs vaccinated with Mycobactrium bovis BCG prior to experimental infection, had reduced iron accumulation as well as H ferritin, lactoferrin and transferrin receptor expression. The amelioration of primary lesion necrosis and dystrophic calcification by BCG vaccination was coincident with the lack of extra-cellular ferric iron and lactoferrin accumulation. These data demonstrate that BCG vaccination ameliorates primary lesion necrosis, dystrophic mineralization and iron accumulation, in part by down-regulating the expression of macrophage H ferritin, lactoferrin and transferrin receptors, in vivo.
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PMID:Increased expression of host iron-binding proteins precedes iron accumulation and calcification of primary lung lesions in experimental tuberculosis in the guinea pig. 1794 69

Increased free radical production and oxidative damage in ageing muscle may be a contributing factor to the development of sarcopenia. It has been suggested that the accumulation of iron may be an underlying factor in the development of oxidative stress in ageing tissues, including skeletal muscle. At present, however, the mechanisms responsible for ageing-associated muscle iron accumulation are unknown. These experiments tested the hypothesis that ageing-associated elevations in skeletal muscle iron are accompanied by altered expression of key regulators of intracellular iron status. We determined non-haem iron, oxidative injury, and expression levels of iron regulation proteins in plantaris muscles harvested from 6- and 24- to 26-month-old Fisher 344 rats (n = 10 per group). Ageing resulted in a 62% elevation in skeletal muscle non-haem iron (P < 0.05) and higher protein oxidative damage (P < 0.05). Notably, ageing was associated with elevated expression of ferritin (heavy chain, +56.2-fold; light chain, +7.3-fold), an important iron storage protein. Conversely, the iron transport protein transferrin receptor-1 demonstrated dramatic downregulation (-10.8-fold; P < 0.05) in old muscle, whereas the level of divalent metal transporter-1 protein expression was unaltered. No change in protein level of iron regulatory protein-1 was observed. In summary, these results demonstrate the occurrence of altered iron regulation concomitant with iron accumulation and oxidative stress in aged skeletal muscle. Importantly, the maintenance of divalent metal transporter-1 protein expression into old age could play a role in the accumulation of skeletal muscle iron.
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PMID:Plantaris muscle of aged rats demonstrates iron accumulation and altered expression of iron regulation proteins. 1798 32

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