Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Soluble and insoluble forms of ferritins have been purified from dry pea seeds by gel filtration. The insoluble form is called phytosiderin by analogy with animal hemosiderin. Native gel electrophoresis of these two forms have shown that the soluble one (ferritin) is homogenous in size and more compact than the insoluble one (phytosiderin) which is heterogenous in size. However, when iron is removed from these two classes of molecules (apoferritin), they have the same mobility in isopycnic centrifugations. Polyacrylamide-sodium dodecyl sulfate gel electrophoresis revealed a difference in their subunit composition: ferritin molecules are built up from a 28-kDa subunit and phytosiderin from a 26.5-kDa subunit. Partial proteolysis using a Staphylococcus aureus protease indicates a strong relationship between these two polypeptides. Intermediates between these two forms have also been characterized and are composed of both subunits in various amounts. Ferritin and phytosiderin are both able to incorporate iron in vitro into their mineral core. It is also shown that in vitro iron exchange induces ferritin degradation. This degradation is prevented by inhibitors of the Fenton cycle (iron chelates like o-phenanthroline and desferrioxamine B) and reduced by Tris, a radical scavenger. Under in vitro conditions of controlled radical damage the 28-kDa subunit is converted into the 26.5-kDa subunit. Purification of the 28-kDa subunit has allowed us to determine the NH2-terminal sequence. The NH2 extremity of the 26.5-kDa subunit is heterogenous, but the sequence of its main component is identical to the sequence of the 28-kDa subunit downstream residue Leu-21. These data indicate that the 26.5-kDa subunit is produced by radical mediated damage leading to a series of cleavages in the NH2 terminal part of the 28-kDa subunit.
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PMID:Mechanism of the transition from plant ferritin to phytosiderin. 253 54

The synthesis of ferritin is regulated at the translation level in coordination with iron availability. Under conditions of low iron, translation of ferritin mRNA is repressed and the majority of ferritin mRNA is non-polysomal. Upon an increase in iron, translation of ferritin mRNA is derepressed resulting in as much as a 50-100-fold increase in the rate of ferritin synthesis. This regulation is mediated at least in part by a specific translational repressor which binds to a conserved sequence, the iron responsive element, located in the 5'-untranslated region of ferritin mRNA. In this communication we report the purification of such a repressor from rabbit liver. This repressor, which we call the "ferritin repressor protein," has an apparent molecular mass of 90 kDa when analyzed by gel filtration chromatography. It inhibits translation of ferritin mRNA in a highly specific fashion when added to a wheat germ lysate programmed with liver poly(A+) mRNA. In addition, it binds specifically to sequences contained within the first 92 nucleotides of ferritin mRNA, most likely the iron responsive element. Analysis of highly purified repressor by sodium dodecyl sulfate-polyacrylamide gel electrophoresis shows that it is composed primarily of a single polypeptide of approximately 90 kDa. Elution of this 90-kDa polypeptide from a sodium dodecyl sulfate gel followed by renaturation and analysis for repressor activity shows that it both binds to the 5'-untranslated region of ferritin mRNA and represses its translation in vitro.
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PMID:Purification of a specific repressor of ferritin mRNA translation from rabbit liver. 256 64

The behavior of cationized ferritin (CF) binding sites on the surface of Leishmania mexicana amazonensis (amastigotes, infective and non-infective promastigotes) and their participation in the interaction with macrophages were evaluated. Glutaral-dehyde-fixed parasites treated with CF present a uniform labelling over the whole cell surface. However, living parasites displayed CF patches and caps. Capping was usually seen towards the anterior (flagellated) portion of the cells, where shedding phenomena took place. These processes were inhibited by sodium azide but not by low temperature (4 degrees C). CF treatment of non-infective promastigotes led to an increase in their uptake by macrophages, whereas the uptake of amastigotes or infective promastigotes was not significantly altered. The effect of CF on the parasite surface charge was analyzed by whole-cell microelectrophoresis. The mean electrophoretic mobility (EPM) of non-infective promastigotes was decreased by 26%, while once again the other parasite forms were not significantly affected. Transmission electron microscopy of mouse peritoneal macrophage cultures, fixed after interaction with CF-labelled parasites, revealed that both amastigotes and infective promastigotes quickly removed bound CF. Therefore CF was seen neither in parasite-macrophage attachment areas nor in parasitophorous vacuoles. On the contrary, non-infective promastigote-macrophage attachment areas were remarkably large and preferentially comprised CF-labelled membranes. These results strongly suggest an important participation of cell surface anionic sites in the L. mexicana amazonensis-macrophage interaction.
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PMID:Anionic site behavior in Leishmania and its role in the parasite-macrophage interaction. 260 39

Ferritin purified from horse heart and applied to nondenaturing polyacrylamide gel electrophoresis migrated as a single band that stained for both iron and protein. This ferritin contained almost equal amounts of fast- and slow-sedimenting components of 58 S and 3-7 S, which could be separated on sucrose density gradients. Iron removal reduced the sedimentation coefficient of the fast-sedimenting ferritin to 18 S, and sedimentation equilibrium gave a molecular weight 650,000, with some preparations containing ferritin of 500,000 molecular weight as well. Sedimentation rates of the 3 S and 7 S ferritins were not affected by iron removal, and sedimentation equilibrium data were consistent with Mr's 40,000 and 180,000, respectively. Preparations of ferritin extracted from horse spleen contained only 67 S (holo) or 16 S (apo) ferritin and no slow-sedimenting species. When examined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, all of the ferritins contained the usual H and L subunits (23 and 20 kDa, respectively), but the slow-sedimenting (3 S and 7 S) heart apoferritins also contained appreciable quantities (ca 25%) of three larger subunits of 42, 55, and 65 kDa. All the subunits reacted positively in Western blots to polyclonal antibodies made against specially purified large heart or spleen ferritins containing only 20- and 23-kDa subunits. Similar results were obtained for ferritins from rat heart. The results indicate that mammalian heart tissue is peculiar not just in having an abnormally large iron-rich ferritin but also in having iron-poor ferritins of much lower molecular weight, partly composed of larger subunits.
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PMID:Heart tissue contains small and large aggregates of ferritin subunits. 275 98

The effects of the Na+/H+ ionophore monensin and the weak base chloroquine on lysosomal uptake of endocytosed macromolecules were studied in cultured mouse peritoneal macrophages using horseradish peroxidase (HRP) and ferritin as exogenous tracers. The lysosomes were first loaded with HRP using a pulse-chase protocol. The cells were then exposed to ferritin for 30 to 120 min, either in control medium or in medium containing 3 microM monensin or 50 microM chloroquine. Semiquantitative electron microscopic analyses indicated that the uptake of ferritin into HRP-labeled lysosomes was inhibited in the drug-treated cells, and that the tracer particles accumulated in endosomes. At the same time the volume density of the endosomes was increased, fourfold by monensin and threefold by chloroquine; with the latter drug there was also an increase in lysosome volume density. Further, both drugs decreased the rate of endocytosis as measured biochemically, but not in proportion to the reduction of lysosomal ferritin uptake. After withdrawal of the drugs, cell morphology returned to normal and transfer of ferritin from endosomes to HRP-labeled lysosomes was resumed. The recovery was more rapid and complete in monensin-treated than in chloroquine-treated cells. On the basis of these findings and earlier investigations demonstrating that monensin and chloroquine both raise the pH in acid cell compartments, it is suggested that the transfer of soluble and not only membrane-bound macromolecules from endosomes to lysosomes is modulated by the pH in these organelles.
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PMID:Monensin and chloroquine inhibit transfer to lysosomes of endocytosed macromolecules in cultured mouse peritoneal macrophages. 277 77

In 1979, 304 healthy elderly individuals in New Mexico were recruited for a longitudinal study of nutrition and aging. Repeat measurements on a yearly basis of commonly requested clinical chemistry analytes allowed the calculation of reference intervals, between and within-subject variance components, and percentiles for change in concentration between two yearly measurements. The latter was further divided into analytical and biological variance components. The upper 95th percentile for the difference between two yearly measurements, expressed as a percent of the population mean, ranged from 4% for Na+ to approximately 20% for total cholesterol and to greater than 90% for ferritin. Year-to-year differences attributable to the biological component ranged from a low of 2% of the population mean for Na+ to 70% for gamma-glutamyltransferase.
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PMID:Clinical chemistry reference intervals for healthy elderly subjects. 234 28

We have previously purified an Mr 75,000 protein from cultured human JEG-3 choriocarcinoma cells and showed that this protein is specifically confined to the cytoplasmic side of JEG-3 microvillar membranes. Recently, the Mr 75,000 protein, designated as cytovillin, was found to be expressed also in several other cultured human cell lines and strains, in which it was detected in microvillus-related structures. We now demonstrate the redistribution of cytovillin in herpes simplex type 1 (HSV-1) and Semliki Forest virus (SFV) infected human embryonal fibroblasts. Virus infection induced rapidly numerous microvilli on the apical cell surfaces, and cytovillin was enriched into these newly formed structures as shown by indirect immunofluorescence and immunoferritin electron microscopy. In mock-infected cells treated with the anti-cytovillin antibodies a small amount of ferritin particles and faint fluorescence was detected along the smooth plasma membrane. Only occasional cell surface protrusions were observed in these cells. The enrichment of the cytovillin was first seen 2 h after infection. The isoelectric point (IP) and the mobility of the cytovillin polypeptide in sodium dodecyl sulfate polyacrylamide gel electrophoresis was not altered after this redistribution, suggesting that the protein was not significantly modified during infection. Five RNA+ SFV mutants (ts-1, ts-2, ts-3, ts-5, ts-7) with temperature-sensitive defects in processing and transport of viral envelope glycoproteins to the plasma membrane induced microvilli at the restrictive temperature (39 degrees C) as the wild type virus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Redistribution of Mr 75,000 plasma membrane protein, cytovillin, into newly formed microvilli in herpes simplex and Semliki Forest virus infected human embryonal fibroblasts. 284 3

The nature of the adhesive capacity of three hemagglutinating Escherichia coli strains that had earlier been described as nonfimbriated was studied. The strains that were isolated from human disease adhered to human buccal and urinary tract epithelial cells, an adhesion that was not inhibited by D-mannose. By crossed immunoelectrophoresis it was shown that the three strains produced a common antigen, Z1, developed after growth at 37 degrees C but not 18 degrees C. One of the strains produced an additional antigen, Z2, of almost the same electrophoretic mobility in crossed immunoelectrophoresis. A mutant of this strain deficient of its polysaccharide K antigen had maintained the adhesive capacity, indicating that the K antigen was not responsible for adhesion. A further mutant of the acapsular mutant produced a strongly reduced amount of the Z antigens and had lost the ability to adhere. The Z1 (and Z2?) antigens were therefore deemed to be responsible for adhesion. In sodium dodecyl sulfate-polyacrylamide gel electrophoresis of extracts of cells of the three strains, a heavy Coomassie-blue stained line was seen, indicating the presence of a protein subunit of molecular weight slightly above 14,400. By immunoblotting with absorbed antiserum, it was shown that this protein was the same as that detected by crossed immunoelectrophoresis. Protease from Streptomyces griseus, but not trypsin, digested the protein. Heating to 100 degrees C did not affect it. By immunoelectron microscopy of embedded and sectioned bacteria that had first been treated with specific antisera and ferritin-labeled antirabbit immunoglobulin, the protein adhesin-antibody complex was found to surround the bacteria as a heavy capsule. After negative staining with uranylacetate (pH approximately 4), the capsule appeared as a mesh of very fine filaments. The possible role of this capsule in the pathogenesis of disease is discussed.
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PMID:An adhesive protein capsule of Escherichia coli. 285 13

Several polycations added to the luminal solution were found to inhibit the vasopressin (ADH)-induced water flow in toad urinary bladder but not the ADH-induced increase in sodium transport or in urea permeability. Ultrastructural studies were conducted to evaluate the uptake of cationized ferritin. It was found that endocytosis of cationized ferritin by luminal cells was strikingly enhanced on exposure to ADH; this increased endocytosis was concomitant with inhibition of transepithelial ADH-induced water flow. Various maneuvers preventing endocytosis were also found to counteract the polycation-induced inhibition of the ADH effect. It is suggested that polycations are endocytosed in vesicles whose walls contain the water channels but not the urea or sodium channels.
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PMID:Polycations reduce vasopressin-induced water flow by endocytic removal of water channels. 301 Jul 30

The naturally occurring dithiols DL-dihydrolipoate and DL-dihydrolipoamide were tested for their ability in the removal of ferritin-bound iron. Both compounds remove the iron stored inside the protein by complexing it in the ferric form. The iron can be reduced to the ferrous form by excess dithiol, but this is not necessary for complete removal. Reaction is complete in few hours and, at molar ratios of chelator to metal higher than 10, more than 60% of the ferritin-bound iron was removed. The amount of iron stored in the ferritin molecule does not affect the rate and the yield of the removal reaction. The iron-removing ability of DL-dihydrolipoate was found to be identical to that of an equimolar solution of sodium dithionite, and to be pH-dependent. Results are discussed in terms of the molecular architecture of ferritin and of the chelators, and their possible physiological relevance is pointed out.
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PMID:Removal of ferritin-bound iron by DL-dihydrolipoate and DL-dihydrolipoamide. 308 24


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