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)

Adult schistosomes have been labelled with 125I using the lactoperoxidase-catalysed technique modified to cause minimal worm damage. After surface membrane removal and characterization, at least 13 labelled proteins were identified together with a large amount of labelled glycolipids, free fatty acids and phospholipids, especially phosphatidyl ethanolamine. Cationised ferritin has been used to stimulate surface membrane turnover of iodinated worms and the shedding of covalently bound 125I-counts used as an index of turnover. Finally worms have been iodinated before and after stimulation of membrane turnover in chemically defined media and the patterns of labelled proteins were compared.
Mol Biochem Parasitol 1983 Oct
PMID:Identification of exposed components on the surface of adult Schistosoma mansoni by lactoperoxidase-catalysed iodination. 666 63

The outer and inner bilayers of the apical membrane complex of Schistosoma mansoni were sequentially stripped from adult worms by two incubations in 0.1% digitonin solutions. Membrane removal was evaluated by electron microscopy of worms and bilayer material, using Con A-ferritin as a marker for the outer bilayer. Amounts of Con A removed by the digests were measured with a tritiated Con A marker. To measure the purity of the fractions membrane markers were characterised and quantitated for both bilayers. In the absence of the usual enzymatic markers for plasma membrane diazotised [125I]-iodosulfanilic acid was used as a marker for the outer bilayer. Alkaline phosphatase and a Na+, Mg2+-ATPase were localised to the inner bilayer. From these results we can deduce that the inner bilayer is analogous to the typical, apical plasma membrane of other animal epithelia. The outer bilayer does not share these enzymatic similarities. The integrity of the syncytium after removal of the outer bilayer and the increased levels of lactate dehydrogenase in the supernatant after removal of the inner bilayer suggests that the outer bilayer is secondary in maintaining the permeability barrier of the apical membrane complex, with respect to soluble proteins. The possible significance of these results in terms of the destructive action of complement on the parasite are discussed.
Mol Biochem Parasitol 1983 Feb
PMID:Sequential removal of outer bilayer and apical plasma membrane from the surface epithelial syncytium of Schistosoma mansoni. 685 11

In this work, we propose a model for the structure of the antigen-antibody complex formed by human H-ferritin and an antibody that specifically recognizes it. We cloned and sequenced the antibody gene, predicted the antibody three-dimensional structure, and reconstructed the H-ferritin-antibody complex using an automated docking procedure previously validated on known complexes. This procedure allowed us to identify one putative complex which we carefully analysed, in order both to evaluate its likelihood, in light of a set of experimental results described in the literature, and to predict precisely which are the sites of interaction between the two molecules. Our model is compatible with the experimentally determined characteristics of the complex. Some of the residues that form the predicted antigenic site of ferritin can be found in the amino acid sequence of peptides selected from a random peptide library because of their affinity for the ferritin monoclonal antibody. Furthermore, the structural difference between the antigenic site in human H-ferritin and the corresponding region in other species permits us to rationalize the inability of the antibody to recognize human L-ferritin and rat, chicken and mouse H-ferritin. Through the analysis of our model complex, we identify a number of other residues putatively involved in the interaction. This multidisciplinary approach shows that synergy between computational and experimental methods may bring further insight into the understanding of antibody-antigen recognition rules.
Mol Immunol 1995 Sep
PMID:Modelling antibody-antigen interactions: ferritin as a case study. 747 97

The different 3' noncoding AU-rich elements (ARE) that mediate the degradation of many short-lived mRNAs may function through distinct decay pathways; translation-dependent and -independent mechanisms have been proposed. To investigate the cotranslational model, we designed an expression system that exploits the properties of the ferritin iron-responsive element to shuttle chimeric mRNAs from ribonucleoproteins to polyribosomes. The iron-responsive element was introduced in the 5' untranslated regions of alpha-globin mRNAs that harbored in their 3' untranslated regions either the c-fos ARE or the granulocyte-macrophage colony-stimulating factor ARE as prototypes of the different ARE subsets. The cytoplasmic location of the transcripts was controlled by intracellular iron availability and monitored by polysomal profile analysis. We report that these two mRNA subsets behaved identically in this system. Iron deprivation by desferrioxamine treatment stabilized both transcripts by sequestering them away from polyribosomes. Sequential treatments with desferrioxamine, followed by hemin to concentrate the mRNAs in the ribonucleoprotein pool prior to translation, showed that rapid degradation occurred only upon redistribution of the transcripts to polyribosomes. Deletion of a critical cytosine in the iron-responsive element abolished targeted sequestration and restored high-level constitutive mRNA instability. These observations demonstrate that the c-fos and granulocyte-macrophage colony-stimulating factor ARE subsets mediate selective mRNA degradation through similar polysome-associated mechanisms coupled with ongoing translation.
Mol Cell Biol 1995 Jul
PMID:Rapid mRNA degradation mediated by the c-fos 3' AU-rich element and that mediated by the granulocyte-macrophage colony-stimulating factor 3' AU-rich element occur through similar polysome-associated mechanisms. 754 Jul 19

Ferritin, the major iron storage protein, was found to be undetectable on immunoblot analysis of spleen and liver extracts from four patients with Niemann-Pick disease type C (NPC). The patients had died from different clinical forms of this storage disease of still unknown etiology. The absence of ferritin immunoreactivity was shown using two different antisera, raised in rabbits, against ferritin from human spleen containing predominantly light-chain subunits (L-ferritin). Further evidence of absent L-ferritin in visceral tissues was provided by immunohistochemical studies performed in one of the four NPC patients. However, heavy-chain and light-chain ferritin mRNAs could be identified in cultured fibroblasts from this patient. The finding of deficient ferritin immunoreactivity is suggestive of an additional biochemical abnormality that is as marked as the known impairment of the transport of exogenously derived cholesterol in this complex lysosomal storage disorder.
Biochem Mol Med 1995 Aug
PMID:Deficient ferritin immunoreactivity in visceral organs from four patients with Niemann-Pick disease type C. 758 67

Ferritin, the major intracellular iron storage protein of eucaryotic cells, is regulated during inflammation and malignancy. We previously reported that transcription of the H subunit of ferritin (ferritin H) is negatively regulated by the adenovirus E1A oncogene in mouse NIH 3T3 fibroblasts (Y. Tsuji, E. Kwak, T. Saika, S. V. Torti, and F. M. Torti, J. Biol. Chem. 268:7270-7275, 1993). To elucidate the mechanism of transcriptional repression of the ferritin H gene by E1A, a series of deletions in the 5' flanking region of the mouse ferritin H gene were constructed, fused to the chloramphenicol acetyltransferase (CAT) gene, and transiently cotransfected into NIH 3T3 cells with an E1A expression plasmid. The results indicate that the E1A-responsive region is located approximately 4.1 kb 5' to the transcription initiation site of the ferritin H gene. Further analyses revealed that a 37-bp region, termed FER-1, is the target of E1A-mediated repression. This region also serves as an enhancer, augmenting ferritin H transcription independently of position and orientation. FER-1 was dissected into two component elements, i.e., a 22-bp dyad symmetry element and a 7-bp AP1-like sequence. Insertion of these DNA sequences into a ferritin H-CAT chimeric gene lacking an E1A-responsive region indicated that (i) the 22-bp dyad symmetry sequence by itself has no enhancer activity, (ii) the AP1-like sequence has moderate enhancer activity which is repressed by E1A, and (iii) the combination of the dyad symmetry element and the AP1-like sequence is required for maximal enhancer activity and repression by E1A. Gel retardation assays and cotransfection experiments with c-fos and c-jun expression vectors suggested that members of the Fos and Jun families bind to the AP1-like element of FER-1 and contribute to its regulation. In addition, gel retardation assays showed that E1A reduces the ability of nuclear proteins to bind to the AP1-like sequence without affecting the levels of nuclear factors that recognize the 22-bp dyad symmetry element. Taken together, these results demonstrate that FER-1 serves as both an enhancer of ferritin H transcription and a target for E1A-mediated repression.
Mol Cell Biol 1995 Sep
PMID:FER-1, an enhancer of the ferritin H gene and a target of E1A-mediated transcriptional repression. 765 32

Ferritin and transferrin receptors are co-ordinately regulated by the same RNA-protein interaction: the conserved iron regulatory element (IRE) in mRNA and the IRE-binding protein (IRE-BP/IRP/FRP/P-90). The 28 nucleotide IRE in ferritin mRNA is a single copy, with base-paired flanking regions (FL), located near the 5' cap. In the transferrin receptor mRNA, the IRE is located in the 3' untranslated region, as five variable copies and lacking predicted base-paired flanking regions; an alternate predicted structure without IREs has similar stability. When iron is scarce, ferritin mRNA does not form polyribosomes whereas the transferrin receptor mRNA is translated; when iron is abundant, ferritin mRNA forms polyribosomes and the transferrin receptor mRNA is degraded. To investigate structures which contribute to differences in the regulation of the two mRNAs, the effect of mutation of the ferritin FL was studied. Changes in structure (changes in reactivity with RNase V1 and RNase S1. Fe-bleomycin) and changes in function (translation in rabbit reticulocyte extracts) were compared for mutant and wild-type FL sequences in ferritin mRNA. The disruption of a triplet of base-pairs in the FL had diminished regulation; a second mutation to restore the triplet base-pairs conferred wild-type translational regulation. Conformation of the mutant RNA-IRE-BP complex was also different. We show that the triplet of base-pairs is conserved; the triplet is also the location of IRE-BP-dependent conformational changes in the FL structure previously observed. Increasing FL base-pairs had no effect on function. Structural changes associated with altered function included bleomycin sites in the IRE, suggesting an alternate conformation of the hairpin, and different base-stacking (V1 sensitivity) in the FL. The function of the FL, which is altered by mutation of phylogenetically conserved triplet base-pairs, may be enhancement of formation of a particular IRE stem-loop-protein interaction.
J Mol Biol 1993 May 20
PMID:The influence of the base-paired flanking region on structure and function of the ferritin mRNA iron regulatory element. 768 92

We report methods for the rapid purification of two iron-binding proteins from larval hemolymph of Manduca sexta. Ferritin was purified in two steps by density gradient ultracentrifugation. To accomplish this, we utilized the relatively high level of ferritin present in the hemolymph of this animal and augmented the density of the protein in vivo by injection of iron sulfate. Nitrocellulose blots analyzed by laser densitometry showed hemolymph from iron-injected insects contained about 0.4 mg of ferritin per ml (approximately 0.7% of total hemolymph protein); of this, 62% was found as pure ferritin in the pellet formed during ultracentrifugation. Following the density ultracentrifugation, we purified transferrin from the hemolymph subphase by immobilized metal ion affinity chromatography using a new gel, Novarose-SE1000/40 coupled to dipicolylamine (DPA) chelated with nickel. Higher capacity Ni2+DPA-gel permitted good resolution of transferrin in the first chromatography; a lower capacity of the same gel allowed purification of transferrin in a second step. Overall transferrin recovery was 52%. Larval hemolymph contained 0.770 mg transferrin/ml, representing about 1.3% of the total protein.
Insect Biochem Mol Biol 1995 Feb
PMID:Rapid and efficient isolation of transferrin and ferritin from Manduca sexta. 771 52

Ferritin is a highly conserved multisubunit protein in animals, plants and microbes which assembles with cubic symmetry and transports hydrated iron ions and protons to and from a mineralized core in the protein interior. We report here the high resolution structures of recombinant amphibian red-cell L ferritin and two mutants solved under two sets of conditions. In one mutant, Glu56, 57, 58 and 60 were replaced with Ala, producing a lag phase in the kinetics of iron uptake. In the second mutant, His25 was replaced with Tyr with, at most, subtle effects on function. A molecule of betaine, used in the purification, is bound in all structures at the 2-fold axis near the recently identified heme binding site of bacterioferritin and horse spleen L ferritin. Comparisons of the five amphibian structures identify two regions of the molecule in which conformational flexibility may be related to function. The positions and interactions of a set of 10 to 18 side-chains, most of which are on the inner surface of the protein, are sensitive both to solution conditions and to the Glu-->Ala mutation. A subset of these side-chains and a chain of ordered solvent molecules extends from the vicinity of Glu56 to 58 and Glu60 to the 3-fold channel in the wild type protein and may be involved in the transport of either iron or protons. The "spine of hydration" is disrupted in the Glu-->Ala mutant. In contrast, H25Y mutation shifts the positions of backbone atoms between the site of the mutation and the 4-fold axis and side-chain positions throughout the structure; the largest changes in the position of backbone atoms are in the DE loop and E helix, approximately 10 A from the mutation site. In combination, these results indicate that solvation, structural plasticity and cooperative structural changes may play a role in ferritin function. Analogies with the structure and function of ion channel proteins such as annexins are noted.
J Mol Biol 1995 May 19
PMID:High resolution crystal structures of amphibian red-cell L ferritin: potential roles for structural plasticity and solvation in function. 776 Mar 35

The ferritin heavy (H) and middle (M) subunit cDNAs were isolated from the Atlantic salmon (Salmo salar) liver. Full-length clones encoding the ferritin M subunit of 176 residues were obtained by screening of a liver cDNA library. The evolutionary conserved iron-responsive element (IRE) was identified in the upstream untranslated region. Ferritin H cDNA was cloned by running reverse transcription-polymerase chain reaction (RT-PCR) on salmon liver mRNA. The salmon ferritin H subunit of 177 residues showed 67% sequence identity with the M subunit. Northern blot analysis revealed ferritin H mRNA in the liver, gonads, head kidney, heart, and spleen, whereas M subunit mRNA was found almost exclusively in the gonads. Polyclonal antibodies against both salmon ferritin H and M were raised in rabbits.
Mol Mar Biol Biotechnol 1995 Jun
PMID:Two ferritin subunits of Atlantic salmon (Salmo salar): cloning of the liver cDNAs and antibody preparation. 777 34


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