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 surface charge of cultured neurons was investigated with the electron microscope markers anionized ferritin (AF) and cationized ferritin (CF). To determine which membrane components could react with the markers, model reactions were used. Both protein-coated Sepharose beads and lipid vesicles were reacted at physiological pH. Results with these model reactions indicate that the following groups may contribute to the surface charge: acidic groups--the sialic acid of both glycoproteins and gangliosides, the carboxyl group of proteins, and the phosphates of phospholipids; basic groups--the amines of proteins. The effect of chemical fixation on the surface charge was investigated. Glutaraldehyde fixation was shown to increase the charge of neutral proteins but not by a mechanism involving unbound aldehydes. Glutaraldehyde fixation of phospholipid vesicles in the presence of CF showed that amine-containing phospholipids were cross-linked to CF. This cross-linkage was seen with the electron microscope as the clumping of CF and the burying of CF in the membrane. Paraformaldehyde fixation had a lesser effect on the charge of proteins but did react with phospholipids as did glutaraldehyde. It is concluded that at physiological pH: (a) most of the charged proteins and lipids on cell surface can contribute to the membrane surface charge, and (b) the membrane surface charge of cells can be greatly changed by chemical fixation.
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PMID:Contributions of lipids and proteins to the surface charge of membranes. An electron microscopy study with cationized and anionized ferritin. 11 15

We have prepared a conjugate of epidermal growth factor (EGF) and ferritin that retains substantial binding affinity for cell receptors and is biologically active. Glutaraldehyde-activated EGF was covalently linked to ferritin to produce a conjugate that contained EGF and ferritin in a 1:1 molar ratio. The conjugate was separated from free ferritin by affinity chromatography using antibodies to EGF. Monolayers of human epithelioid carcinoma cells (A-431) were incubated with EGF:ferritin at 4 degrees C and processed for transmission electron microscopy. Under these conditions, approximately 6 X 10(5) molecules of EGF:ferritin bound to the plasma membrane of each cell. In the presence of excess native EGF, the number of bound ferritin particles was reduced by 99%, indicating that EGF:ferritin binds specifically to cellular EGF receptors. At 37 degrees C, cell-bound EGF:ferritin rapidly redistributed in the plane of the plasma membrane to form small groups that were subsequently internalized into pinocytic vesicles. By 2.5 min at 37 degrees C, 32% of the cell-bound EGF:ferritin was localized in vesicles. After 2.5 min, there was a decrease in the proportion of conjugate in vesicles with a concomitant accumulation of EGF:ferritin in multivesicular bodies. By 30 min, 84% of the conjugate was located in structures morphologically identified as multivesicular bodies or lysosomes. These results are consistent with other morphological and biochemical studies utilizing 125I-EGF and fluorescein-conjugated EGF.
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PMID:Direct visualization of the binding and internalization of a ferritin conjugate of epidermal growth factor in human carcinoma cells A-431. 31 31

Labelling of cell walls or outer membranes from Salmonella typhimurium with ferritin-conjugated antibodies directed against the polysaccharide moiety of the lipopolysaccharide gave the following results: 1. Cell walls or outer membranes from which the mucopeptide had been removed by lysozyme digestion at 0 degrees C carried the label on the outer face of the membrane. 2. When the murein layer was removed by either lysozyme or trypsin at physiological temperature (25-37 degrees C) subsequent labelling showed the lipopolysaccharide to be present on both membrane faces. 3. This reorientation could be achieved by a 1-min treatment of the membranes at 37 degrees C. 4. Glutaraldehyde fixation of the outer membranes did not entirely prevent but somewhat inhibited the temperature-induced reorientation process. 5. The same reorientation phenomenon was observed in lysozyme spheroplasts, which were prepared at 37 degrees C and were subsequently lysed in hypotonic medium at 0 degrees C. These observations are discussed as evidence for a transmembrane movement of lipopolysaccharide, which only takes place in areas where the mucopeptide layer is defective, and only when the temperature is sufficiently high to allow such movement.
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PMID:Asymmetrical distribution and artifactual reorientation of lipopolysaccharide in the outer membrane bilayer of Salmonella typhimurium. 80 74

The distribution of receptors for concanavalin A (Con A) and anionic groups on plasma membranes of developing blood cells was investigated in the rat. Glutaraldehyde-fixed bone marrow and circulating blood cells were exposed to ferritin-conjugated Con A or positively chaged ferric oxide (CI) and processed for electro n microscopy. The frequency of Con A and CI binding sites varied during different erythroid developmental stages and amont different leukoid cell types. There was a constant inverse relationship between Con A and CI binding sites. Among leukoid cells, Con A binding was high on plasma cells and macrophages, lower on neutrophils and lymphocytes, and still lower on eosinophils and basophils; CI binding was highest in the latter and lowest in plasma cells and macrophages. Among erythroid cells, there was a progressive increase in Con A and a decrease in CI binding after successive divisions of erythroblasts, and a progressive decrease in Con A and an increase in CI binding upon maturation of the orthochromatic erythroblast to the reticulocyte. The most pronounced modification in distribution of these sites occurred during nuclear expulsion: that protion of the plasma membrane surrounding the extruded nucleus was heavily labeled by Con A (up to four times that of the orthochromatic erythroblast) whereas the reticulocyte had considerably fewer sites. The situation was reversed with CI. The results suggest that the concentration of nonsialated glycoproteins (to which Con A binds) varies inversely to that of sialoproteins (to which CI binds) in the membrane of the differentiating erythroid cell. The remarkable changes observed at the time of nuclear extrusion suggest that there is either local modification of glycosylated groups with removal of sialyl residues from the membrane surrounding the extruded nucleus of selective segregation of membrane glycoproteins leading to a high concentration of sialoproteins (glycophroin) in the membrane of the mature erythrocyte.
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PMID:Variations in distribution of con A receptor sites and anionic groups during red blood cell differentiation in the rat. 97 48

The localization of histamine receptors and their classes on the microvascular endothelium was assessed by using the electron-opaque conjugate histamine-ferritin (HF). In order to further check the specific binding of this conjugate, two compounds chemically similar to histamine but biologically inactive, tele-methylhistamine (t-MH) and 4-pyridylethylamine (PEA), and a specific H2 histamine receptor antagonist, SK&F 93479, were used. Glutaraldehyde-activated ferritin was covalently coupled with either histamine, as a biologically active HF conjugate, or with tele-methylhistamine, as a biologically inactive conjugate tele-methylhistamine-ferritin (t-MHF). The purity of the conjugates was determined by thin-layer chromatography. The HF conjugate (25 mg protein/100 g body weight) was perfused into RAP mice and bipolar microvascular fields of the diaphragm were fixed and processed for electron microscopy. The HF conjugate decorated restricted domains of the luminal aspect of the microvascular endothelium. The specific density of HF binding, recorded as the average number of binding sites per square micrometer of the luminal endothelial surface, was relatively high in venules (18.46 +/- 5.73) and lower in arterioles (12.89 +/- 6.13) and capillaries (9.51 +/- 4.20). The binding specificity of the HF conjugate was assessed through six groups of experiments: perfusion before HF conjugate with either histamine, tele-methylhistamine or 4-pyridylethylamine, perfusion with t-MHF conjugate only, or administration before t-MHF conjugate of either histamine or tele-methylhistamine. The statistical significance of the data was analyzed by using the "F" distribution test and the "Wilcoxon-Mann-Whitney rank-sum test". Both tele-methylhistamine and 4-pyridylethylamine as well as histamine, showed a higher competition on arterioles and venules than on capillaries. Neither tele-methylhistamine nor histamine inhibited the binding of t-MHF conjugate on the endothelium. Experiments using SK&F 93479 as a very potent H2 histamine receptor antagonist perfused before HF administration, suggested the existence of H2 histamine receptors at a higher concentration in venules (47.03%) and arterioles (38.80%) than in capillaries (14.16%). These findings demonstrate that HF conjugate binds specifically to the histamine receptors of microvascular endothelium, which are characteristically frequent and predominantly of H2 type in venules.
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PMID:Further evidence for the distribution and nature of histamine receptors on microvascular endothelium. 243 46

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

The localization of carbon monoxide oxidase (CO oxidase), the key enzyme in CO metabolism of Pseudomonas carboxydovorans, was examined using modified immunoferritin and protein A-gold techniques. Cell extracts were incubated with specific immunoglobulin G antibodies raised against CO oxidase, followed by treatment with ferritin-conjugated goat-anti-rabbit immunoglobulin G antibodies (pre-embedding labeling). Electron microscopic examination of ultrathin sections showed cytoplasmic membranes and inside-out vesicles labeled at the inner aspect, whereas the outer sides of protoplasts and membrane vesicles remained completely unlabeled. The highly sensitive protein A-gold method has been modified to allow labeling of CO oxidase with good ultrastructural preservation of the bacterial cell. Glutaraldehyde-fixed cells of P. carboxydovorans were osmificated and embedded in glycol methacrylate. Etched ultrathin sections were treated with sodium metaperiodate and incubated with the specific antibodies against CO oxidase. These antibodies were then allowed to react with protein A-gold complexes (postembedding labeling). Exponentially grown cells showed 87% of CO oxidase associated with the cytoplasmic membrane and 13% of the enzyme in the cytoplasm. The results indicate that CO oxidase is attached in vivo to the inner aspect of the cytoplasmic membrane and suggest interaction of the enzyme with a membrane-bound electron acceptor. The ratio of enzyme associated with the cytoplasmic membrane decreased to 50% in the stationary growth phase.
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PMID:Immunocytochemical localization of carbon monoxide oxidase in Pseudomonas carboxydovorans. The enzyme is attached to the inner aspect of the cytoplasmic membrane. 643 4

Freeze-fracturing and deep-etching have been used to characterize the internal morphology and surface charge of the plasma membrane of GH3-cells from cell culture in fixed and unfixed material. Glutaraldehyde does not effect intramembrane particle pattern but induces structural modifications on the cell surface in a way that additional attachment sites for cationized ferritin are exposed at specific areas of the membrane. Negative surface charges are not directly linked to the intramembrane particles, but to other (surface-) proteins, independently enough to be dislocated by external ligands; this process is restricted to the membrane surface. Thermotropic phase changes induce separation of lipidic regions from proteinaceous regions. Peripheral and integral protein are thus aggregated simultaneously, resulting in clustered membrane particles and aggregated surface charges.
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PMID:Morphological characterization of the plasma membrane of a pituitary tumor cell line (GH3). 678 62

Ferritin and colloidal gold were found to permeate human erythrocytes during rapid or gradual hypotonic hemolysis. Only hemolysed cells contained these particles; adjacent intact cells did not contain the tracers. Ferritin or gold added 3 min after the onset of hypotonic hemolysis did not permeate the ghost cells which had, therefore, become transiently permeable. By adding ferritin at various times after the onset of hemolysis, it was determined that for the majority of the cells the permeable state (or interval between the time of development and closure of membrane holes) existed only from about 15 to 25 sec after the onset of hemolysis. It was possible to fix the transient "holes" in the open position by adding glutaraldehyde only between 10 and 20 sec after the onset of hemolysis. The existence of such fixed holes was shown by the cell entry of ferritin and gold which were added to these prefixed cells. Membrane defects or discontinuities (of the order of 200-500 A wide) were observed only in prefixed cells which were permeated by ferritin subsequently added. Adjacent prefixed cells which did not become permeated by added ferritin did not reveal any membrane discontinuities. Glutaraldehyde does not per se induce or create such membrane defects since cells which had been fixed by glutaraldehyde before the 10-sec time point or after the 180-sec time point were never permeable to added ferritin, and the cell membranes never contained any defects. It was also observed that early in hemolysis (7-12 sec) a small bulge in one zone of the membrane often occurred. Ghost cells produced by holothurin A (a saponin) and fixed by glutaraldehyde became permeated by ferritin subsequently added, but no membrane discontinuities were seen. Ghosts produced by lysolecithin and fixed by glutaraldehyde also became permeated by subsequently added ferritin, and many membrane defects were seen here (about 300 A wide).
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PMID:Transient holes in the erythrocyte membrane during hypotonic hemolysis and stable holes in the membrane after lysis by saponin and lysolecithin. 1097 1

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