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Query: UNIPROT:P02794 (ferritin)
 17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The absorptive cell of the suckling rat ileum is specialized for the uptake and digestion of milk macromolecules from the intestinal lumen. The apical cytoplasm contains an extensive tubulocisternal system, a variety of vesicles and multivesicular bodies (MVB), and a giant phagolysosomal vacuole where digestion is completed. To determine if sorting of membrane-bound and fluid-phase macromolecules occurs in this elaborate endocytic system, we infused adsorptive and soluble tracers into ligated intestinal loops in vivo and examined their fates. Lysosomal compartments were identified by acid phosphatase histochemistry. Native ferritin and two ferritin-lectin conjugates that do not bind to ileal membranes (Con A, UEAI) served as soluble tracers. Horseradish peroxidase binds to ileal membranes and thus was not useful as a fluid-phase tracer in this system. Cationized ferritin and a lectin that binds to terminal B-D-galactosyl sites on ileal membranes (Ricinus communis agglutinin [RCAI]-ferritin) were used as tracer ligands. All tracers entered the wide apical invaginations of the luminal cell surface and were transported intracellularly. Membrane-bound tracers were found in coated pits and vesicles, and throughout the tubulocisternal system (where cationized ferritin is released from the membrane) and later, in large clear vesicles and MVB. In contrast, fluid-phase tracers appeared within 5 min in vesicles of various sizes and were not transported through the tubulocisternae, rather, they were concentrated in a separate population of vesicles of increasing size that contained amorphous dense material. Large clear vesicles, large dense vesicles, and MVB eventually fused with the giant supranuclear vacuole. Acid phosphatase activity was present in MVB and in the giant vacuole but was not present in most large vesicles or in the tubulocisternae. These results demonstrate that membrane-bound and soluble protein are transported to a common lysosomal destination via separate intracellular routes involving several distinct prelysosomal compartments.
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PMID:Membrane-bound and fluid-phase macromolecules enter separate prelysosomal compartments in absorptive cells of suckling rat ileum. 647 44

The dynamics of plasma membrane retrieval has been studied in the pancreatic acinar carcinoma in order to determine if neoplastic cells exhibiting a heterogeneity of cytodifferentiation states retain the capacity to interiorize and recycle plasma membrane. To this end, the plasma membranes of neoplastic pancreatic acinar cells were labeled with radioiodinated cationic ferritin (125I-CF), and the fate of the tracer was monitored by quantitative electron microscopic autoradiography. The undifferentiated granule-deficient cells of the tumor internalized membrane-bound 125I-CF and sequestered it predominantly in lysosomes. By contrast, the differentiated granule-rich cells internalized significantly more membrane-bound 125I-CF, and the tracer was localized in secretory granules and in lysosomes. The data suggest that neoplastic cells retain the capability of retrieving plasma membrane and that the dynamics of the process is correlated with the state of cytodifferentiation of the neoplastic cells.
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PMID:Plasma membrane retrieval in neoplastic pancreatic acinar cells. 658 Jun 18

The internalization of membrane from the mosaic egg surface of the zebra fish, Brachydanio, was investigated using anionic ferritin and transmission electron microscopy. The cortical cytoplasm of the 5-min activated egg showed numerous membrane-bound vesicles not found in the unactivated egg cortex. Two types of vesicles were identified: uncoated (smooth) and coated. Coated vesicles measured about 0.7 to 0.9 micrometer in diameter. Coated pits, considered to be precursors to the formation of coated vesicles, were frequently observed at the base of membrane-lined cortical granule crypts. Anionic ferritin was localized over coated pits and in both smooth and coated vesicles. The absence of any morphological evidence of a surface origin for smooth vesicles suggested these ferritin-labeled organelles might be formed by coated vesicle fusion. Our results indicate that the plasma membrane redundancy created by the exocytosis of cortical granules in Brachydanio appears to be resolved in part by the internalization of membrane through endocytosis.
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PMID:Uptake of ferritin by the mosaic egg surface of Brachydanio. 681 97

The indirect immunoferritin labeling method was used to localize the membrane-bound respiratory nitrate reductase in membrane vesicles and protoplasts or sphereplasts of Bacillus licheniformis and Klebsiella aerogenes, respectively. For a comparison of the labeling of the various vesicle preparations, which differed not only in size but also in the percentage of inside-out orientation, a quantification of the results was needed to circumvent the problem of non-specifically bound ferritin. From the results of sidedness of the nitrate reductase in the cytoplasmic membrane of the above-mentioned bacteria was determined as being cytoplasmic in B. licheniformis and as transmembranous in K. aerogenes.
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PMID:Immunoferrin labeling of respiratory nitrate reductase in membrane vesicles of Bacillus licheniformis and Klebsiella aerogenes. 700 23

The intramembranous particles of yeast Saccharomyces cereisiae plasma membrane form paracrystalline arrays or are randomly distributed as seen by freeze-fracture electron microscopy. Protoplasts with randomly distributed particles and with paracrystalline arrays were isolated and subsequently labeled with 3H-Con A, Con A and ferritin-Con A. The distribution of the Con A or the ferritin-Con A molecules on deep-etched exoplasmic surfaces strongly resembled the distribution of the intramembranous particles. The influence upon labeling of buffer ionic strength was investigated. Binding assays with 3H-Con A and freeze-etch electron microscopy demonstrated that the amount of non-specifically bound lectin molecules decreases by increasing buffer ionic strength. Only partial removal of Con A molecules was achieved by adding various concentrations of the specific sugar Methyl-alpha-D-Mannoside (alpha MM) to labeled protoplasts. By means of analytical ultracentrifugation it was found that alpha MM also promotes the formation of Con A dimers. fixed protoplasts were treated with detergents and 2-chloroethanol at various concentrations and subsequently labeled with 3H-Con A or ferritin-Con A. The amount of Con A bound to extracted cells did not decrease but ultrastructural changes of the deep-etched surfaces were observed. From our data it can be concluded that only the glycoproteins are labeled with Con A and they seem to be associated with the intramembranous particles [15]. Each intramembranous particle seems to bind 36 to 44 Con A molecules and therefore the glycoproteins seem to possess very long sugar chains. This further supports the hypothesis that the intramembranous particles are associated with the membrane-bound invertase.
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PMID:Specific labeling of glycoproteins in yeast plasma membrane with concanavalin A. 702 44

The expression of thyroglobulin and other thyroid-specific markers depends upon the activation of protein kinase A (PKA) by cyclic AMP. A rat thyroid cell line dedifferentiates when transformed with Ki-ras oncogene. The decrease in thyroglobulin gene expression parallels a reduction in the level of PKA nuclear catalytic subunit. We find that the activity of cAMP-responsive elements and thyroglobulin promoters is down-regulated in Ras-transformed cells. Transcription of a third cAMP-regulated gene, H-ferritin, is similarly reduced. cAMP-responsive element and H-ferritin expression were stimulated when intracellular cAMP levels were increased. Reactivation of the thyroglobulin promoter required depletion of PKC in addition to increased cAMP. We also find that v-Ras activation leads to a significant increase in membrane-bound PKC. These data support the idea that v-Ras via PKC inhibits the transmission of cAMP-PKA signals to the nucleus. We suggest that the thyroglobulin promoter is more sensitive than other cAMP-dependent promoters to reduced nuclear levels of PKA catalytic subunit.
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PMID:Ki-ras oncogene interferes with the expression of cyclic AMP-dependent promoters. 771 89

Tree shrews (Tupaia belangeri) develop a bidiscoid endotheliochorial placenta. In addition, histiotrophe secreted by uterine glands is absorbed by the paraplacental trophoblast. Histiotrophe which is rich in iron is necessary for erythropoiesis in the young embryo. This report is part of a study of the accumulation and metabolism of iron in the endometrium of precisely dated pregnant Tupaia belangeri by application of electron spectroscopy and histochemistry. In the endometrium of tree shrews which had been pregnant at least once, iron-laden granules were present in macrophages and secreting cells of uterine glands. Iron accumulated in the endometrium shortly after parturition, when macrophages phagocytosed erythrocytes at small haematomas 0.2-0.5 mm in diameter. These haematomas arose during parturition after bleeding into the uterine stroma when the placental discs were detached. At 24 h after parturition the following structural consequences of the erythrolysosomal breakdown of phagocytosed erythrocytes could be observed: free cytosolic siderin granules, membrane-bound siderosomes, telolysosomes (some of which contained myelin figures or lipid droplets) and mixed telolysosomes (containing membranous stacks and siderin granules). During the lysosomal degradation of phagocytosed erythrocytes, iron was transferred from haemoglobin into a different macromolecular compound. Electron energy loss spectra detected from inside siderosomes indicated an iron-oxygen compound, and high-power bright field electron micrographs of siderosomes demonstrated the ultrastructural pattern characteristic of ferritin. At about d 12 of a new pregnancy, macrophages containing siderosomes closely approached the bases of secreting cells of endometrial glands. This strongly suggests that iron is transferred from the macrophages to the glandular cells. Within the glandular cells, iron-rich histiotrophe was synthesised and released into the glandular lumen. Within the uterine cavity this histiotrophe was absorbed by the omphalopleure. We suggest that among eutherians, postpartum erythrophagocytosis, the transfer of iron from macrophages to uterine glands, and the paraplacental uptake of iron, represent an ancestral mechanism of iron supply to the embryo.
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PMID:Postpartum erythrophagocytosis, iron storage and iron secretion in the endometrium of the tree shrew (Tupaia) during pregnancy. 792 47

The mechanisms of iron uptake from transferrin and the effects of iron chelators on these processes were investigated in human neuroblastoma cells. This study was performed because numerous reports have indicated that neuroblastoma cells contain iron-rich ferritin and are also especially sensitive to iron chelation by deferoxamine. The mechanisms of iron and transferrin uptake were examined in the human neuroblastoma cell line SK-N-MC by using human transferrin labeled with iodine 125 and iron 59. Internalized and membrane-bound 59Fe and 125I-transferrin were separated with the protease pronase. Total internalized and membrane 125I-transferrin uptake was biphasic with time, whereas total and internalized 59Fe uptake was linear. Iron uptake from transferrin was prevented by incubation at 4 degrees C and also by lysosomotrophic agents. In addition, 59Fe uptake occurred by two processes. The first process was consistent with receptor-mediated endocytosis involving internalization of transferrin bound to specific binding sites. Iron uptake also occurred by a second process, which was not saturable up to a transferrin concentration of 0.06 mg/ml. In terms of quantitative iron uptake, however, the second process was far less important than receptor-mediated endocytosis. Deferoxamine (0.25 mmol/L) only slightly increased 59Fe release from prelabeled cells; the orally effective iron chelator pyridoxal isonicotinoyl hydrazone (0.25 mmol/L) was six times more effective. Moreover, when pyridoxal isonicotinoyl hydrazone (0.2 mmol/L) was added together with labeled transferrin over a 2-hour incubation, 59Fe uptake from transferrin decreased to 18% of the control value, whereas deferoxamine (0.2 mmol/L) had no appreciable effect. Even though deferoxamine (0.1 mmol/L) had little effect on 59Fe uptake or release, it reduced uptake of tritiated thymidine to 33% of the control value after a 24-hour incubation. Three analogs of pyridoxal isonicotinoyl hydrazone, pyridoxal benzoyl hydrazone (#101), pyridoxal p-methoxybenzoyl hydrazone (#107), and pyridoxal m-fluorobenzoyl hydrazone (#109), had chelation activities comparable to that of pyridoxal isonicotinoyl hydrazone and were more effective than either deferoxamine or pyridoxal isonicotinoyl hydrazone at preventing tritiated thymidine uptake. These results suggest that the pyridoxal isonicotinoyl hydrazone analogs have potential as effective antiproliferative agents and deserve further investigation.
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PMID:The iron metabolism of the human neuroblastoma cell: lack of relationship between the efficacy of iron chelation and the inhibition of DNA synthesis. 796 24

An ultrastructural study of endocytosis has been made for the first time in protoplasts of a gymnosperm, white spruce (Picea glauca), fixed by high-pressure freezing and freeze substitution. Protoplasts derived from the WS1 line of suspension-cultured embryogenic white spruce were labelled with cationized ferritin, a non-specific marker of the plasma membrane. The timing of cationized ferritin uptake and its subcellular distribution were determined by fixing protoplasts at various intervals after labelling. To address concerns about using chemical fixation to study the membrane-bound transport of cationized ferritin, protoplasts were fixed both by conventional glutaraldehyde fixation and by rapid freezing in a Balzers high-pressure freezing apparatus (followed by freeze substitution). Cationized ferritin appeared rapidly in coated pits and coated vesicles after labelling. Later it was present in uncoated vesicles, and in Golgi bodies, trans-Golgi membranes and partially coated reticula, then subsequently in multivesicular bodies, which may ultimately fuse with and deliver their contents to lytic vacuoles. The results show that the time course and pathway of cationized ferritin uptake in the gymnosperm white spruce is very similar to the time course and pathway elucidated for cationized ferritin uptake in the angiosperm soybean. High-pressure freezing yielded much better preservation of intracellular membranes and organelles, although plasma membranes appeared ruffled. Protoplasts fixed by both methods possessed numerous smooth vesicles in the cortex and smooth invaginations of the plasma membrane. These became labelled with cationized ferritin, but apparently did not contribute directly to the internalization of cationized ferritin, except via the formation of coated pits and vesicles from their surfaces.
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PMID:Ultrastructure of the endocytotic pathway in glutaraldehyde-fixed and high-pressure frozen/freeze-substituted protoplasts of white spruce (Picea glauca). 830 67

The essential nutrients zinc (Zn) and selenium (Se) provide an antioxidant function to animal cells by very different mechanisms. Se is an integral part of Se-dependent glutathione peroxidases, a group of water-soluble enzymes that catalyze the destruction of water-soluble and, in some cases, membrane-bound hydroperoxides. In dietary Se deficiency, Se-dependent glutathione peroxidase activities are decreased; at Se intakes above that which is required for optimal growth, there is a slight to moderate increase in Se-dependent glutathione peroxidase activities. Because of the enzymatic nature of the major role of Se as an antioxidant, Se can be categorized as having a general antioxidant function, controlling peroxide levels in cells by degrading hydroperoxides. On the other hand, Zn functions as an antioxidant only at specific sites, and is not a required cofactor for an antioxidant enzyme. Although Zn plays a structural role in the enzyme Cu, Zn superoxide dismutase, the activity of this enzyme is not decreased in Zn deficiency and its activity is usually depressed at high Zn intakes. Zn may function as a site-specific antioxidant by two mechanisms. Firstly, it competes with Fe and Cu for binding to cell membranes and some proteins, displacing these redox-active metals and making them more available for binding to ferritin and metallothionein, respectively. Secondly, Zn binds the sulfhydryl groups in proteins, protecting them from oxidation. Zn status does not directly control tissue peroxide levels but can protect specific molecules against oxidative and peroxidative damage.
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PMID:Zinc and selenium, site-specific versus general antioxidation. 831 37


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