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 process of fusion from without (FFWO) induced by herpes simplex virus (HSV) was analyzed by using various inhibitors and compared to fusion from within (FFWI). The fate of certain elements of the cytoskeleton after FFWO was also investigated. Our experiments demonstrate FFWO as a very suitable system for study of early virus-cell interactions. Zn++ ions proved inhibitory for penetration whilst pretreatment of cells with Ca++ ions before infection enhanced FFWO activity. Dissociation of penetration from the fusion process itself was possible by use of Zn++ ions, low pH-treatment and antiserum on the one hand and N-ethylmaleimide and cytochalasin D on the other. Penetration itself needs only 6 min or less to proceed. FFWO is independent of inhibitors of glycosylation (tunicamycin) and intracellular vesicular traffic (monensin), protein-synthesis (cycloheximide) and energy-delivery (2.4 dinitrophenol and Na-azide). Analyzed strains of HSV-1 and -2 producing FFWI could be subgrouped into three categories: Strain ANG with high, strain HFEM and Lux with low and strains IES, Len, MP, US with no FFWO activity. The results of these experiments indicate that the property of FFWO is not purely a consequence of the number of PFU but depends on certain inherent properties of the virus particles. Addition of heparin as well as treatment of cells with heparitinase effectively prevented FFWO, indicating identical virus receptors for entrance of virus into cells and FFWO. During our studies several calf sera were found to inhibit FFWO-activity. Inhibition of FFWO by a glycoconjugate (ferritin coupled with oleic acid) indicates specific stereochemical hindrance of FFWO by this compound. Shortly after FFWO the actin filaments rearrange to form long fibres and surface fibronectin is being lost from the cell membrane.
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PMID:Characterization of fusion from without induced by herpes simplex virus. 184 50

An iron binding protein with an approximate molecular mass of 56,000 daltons was purified to homogeneity from homogenates of rat duodenal mucosa. The protein was biochemically and immunologically distinct from transferrin and ferritin and competitively bound cobalt, copper, zinc, and lead. Each molecule bound one molecule of iron with a Kd of 9 X 10(-5). Dissociation of iron and the protein was accelerated at acid pH. Using an immunogold method, the protein was identified in the apical cytoplasm of proximal small intestinal cells and was not observed elsewhere in the intestinal mucosa and in other body organs. It was named mobilferrin from its city of origin and to differentiate it from other previously identified iron binding proteins.
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PMID:A newly identified iron binding protein in duodenal mucosa of rats. Purification and characterization of mobilferrin. 231 93

Dissociation of adult cardiac myocytes by collagenase perfusion techniques requires separation of the junctional contacts that link the cells physically, electrically and metabolically in the intact heart. Gap junctions, one of three types of intercellular junction present at the cardiac intercalated disc, are not split into their component membranes when myocytes are dissociated; they are ripped from the plasma membrane of one cell, to be retained by its neighbour. Partitioning of junctions in this way might be expected to constitute a serious threat to the ionic integrity of dissociated myocytes, but in practice, high yields of functionally intact cells, suitable for experimental studies, are routinely obtained. To explain this apparent paradox, repair mechanisms, operating to seal the membrane lesions caused by gap junction tearing, have been hypothesized, but evidence for their existence has previously been lacking. Using freeze-fracture electron microscopy, the present study identifies repair sites as smooth membrane domains that are continuous with the neighbouring plasma membrane, thus forming intact seals. That these structures are not chemically-induced artefacts is demonstrated by their presence in myocytes that were frozen directly from the living state. Subsarcolemmal vesicle clusters, detected in thin sections and freeze-fracture replicas, are associated with the smooth sealing domains. These structures may represent either rounded-up fragments of mechanically disrupted membrane or structures concerned with the synthesis of new lipid. From their freeze-fracture morphology, the sealing domains appear to be lipid-rich and protein-poor. Cytochemical studies using Ruthenium Red, cationized ferritin and lectins show in addition that they have a lower content of negatively-charged membrane components than the neighbouring plasma membrane, and that the carbohydrate residues normally associated with plasma membrane glycolipids and glycoproteins are absent.
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PMID:Integrity of the dissociated adult cardiac myocyte: gap junction tearing and the mechanism of plasma membrane resealing. 235 53

We have used undifferentiated human promyelocytic HL60 cells to study the binding of radioiodinated human ferritin in vitro. Specific binding of human heart ferritin could be demonstrated at 37 degrees C, whereas no binding of liver ferritin could be found. The uptake of labelled heart ferritin was abolished by incubation at 4 degrees C, by prior treatment of the HL60 cells with pronase and by the addition of human plasma to the medium. On the other hand, the addition of excess unlabelled human liver or rat liver ferritin had no effect on the uptake of labelled human heart ferritin. Dissociation studies showed that about 55% of the bound heart ferritin radioactivity could be released by incubation with medium alone and at least 90% with excess unlabelled heart ferritin. Over 70% of the dissociated ferritin could be precipitated with polyclonal anti-ferritin serum or trichloroacetic acid. More than two-thirds of the radioactivity which could not be released after washing in medium alone was recovered in the soluble intracellular fraction following cell lysis. Almost all of the soluble radioactivity could be precipitated with the polyclonal antiserum, indicating that very little lysosomal degradation of internalized heart ferritin had occurred. The present studies demonstrate a protein-mediated binding mechanism for acidic isoferritins on HL60 cells. These observations agree with published evidence that ferritin is often associated with cell membranes and are consistent with a possible role for the protein in the regulation of haematopoiesis or in iron transfer.
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PMID:Interaction of acidic isoferritins with human promyelocytic HL60 cells. 316 73

The stability of the dodecameric Listeria innocua ferritin at low pH values has been investigated by spectroscopic methods and size-exclusion chromatography. The dodecamer is extremely stable in comparison to the classic ferritin tetracosamer and preserves its quaternary assembly at pH 2.0, despite an altered tertiary structure. Below pH 2.0, dissociation into dimers occurs and is paralleled by the complete loss of tertiary structure and a significant decrease in secondary structure elements. Dissociation of dimers into monomers occurs only at pH 1.0. Addition of NaCl to the protein at pH 2.0 induces structural changes similar to those observed upon increasing the proton concentration, although dissociation proceeds only to the dimer stage. Addition of sulfate at pH values >/= 1.5 prevents the dissociation of the dodecamer. The role played by hydrophilic and hydrophobic interactions in determining the resistance to dissociation of L. innocua ferritin at low pH is discussed in the light of its three-dimensional structure.
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PMID:The unusual dodecameric ferritin from Listeria innocua dissociates below pH 2.0. 1097 84

We have previously provided evidence that ferritin binds selectively to white matter tracts in adult mouse and human brains. In cell culture experiments, ferritin binding is specifically localized to oligodendrocytes. The goal of the present study is to test the hypothesis that the developmental pattern for ferritin binding will coincide with the onset and progression of myelination. The first evidence of ferritin binding in the mouse brain is at 12 days of age and occurs within the brainstem. Ferritin binding persisted in the brainstem and expanded to the corpus callosum by 15-16 days of age. By 23-24 days of age ferritin binding had further extended to the striatal white matter. By adulthood, ferritin binding was strongly and selectively expressed throughout all white matter tracts. To begin to identify which factors may be involved in the induction of ferritin-binding proteins on oligodendrocytes, brains from the myelin mutant jimpy mice and unaffected littermates were examined at postnatal days 16-18. Jimpy mice were chosen because their oligodendrocytes fail to produce myelin or accumulate iron. Thus, using jimpy mice would elucidate whether these factors are necessary for ferritin-binding protein expression. Both the jimpy mutants and their controls exhibited saturable ferritin binding with similar binding densities and dissociation constants. Dissociation constants for ferritin binding in the unaffected littermates and jimpy mutant mice were 0.38 +/- 0.04 and 0.32 +/- 0.06 nM, respectively and binding densities were similar (1.1 +/- 0.09 and 0.96 +/- 0.12 fmol/mg, respectively). Our results demonstrate that expression of ferritin binding is dependent on the age of the oligodendrocytes and not dependent upon iron accumulation by oligodendrocytes or myelin production. We propose that iron delivery to oligodendrocytes is predominantly via ferritin and this method of iron uptake is unique to oligodendrocytes in the brain.
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PMID:Ferritin binding in the developing mouse brain follows a pattern similar to myelination and is unaffected by the jimpy mutation. 1240 60

A versatile bioassay label based on marker-loaded apoferritin nanoparticles (MLANs) has been developed for sensitive protein detection. Dissociation and reconstitution characteristics at different pH as well as the special cavity structure of apoferritin provides a facile route to prepare nanoparticle labels and avoid the complicated and tedious synthesis process of conventional nanoparticle labels. The optical and electrochemical characteristics of the prepared nanoparticle labels are easily controlled by loading different optical or electrochemical markers. A fluorescence marker (fluorescein anion) and a redox marker [hexacyanoferrate(III)] were used as model markers to load into the cavity of apoferritin nanoparticles for microscopic fluorescence immunoassay and electrochemical immunoassay, respectively. Detection limits of 0.06 (0.39 pM) and 0.08 ng mL(-1) (0.52 pM) IgG were obtained with fluorescein MLAN and hexacyanoferrate MLANs, respectively. The new nanoparticle labels hold great promise for multiplex protein detection (in connection with nanoparticles loaded with different markers) and for enhancing the sensitivity of other bioassays.
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PMID:Versatile apoferritin nanoparticle labels for assay of protein. 1707 7