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: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reconstituted Sendai-viral envelopes (RSVE) were produced by the method of Vainstein, Hershkovitz, Israel & Loyter [(1984) Biochim. Biophys. Acta 773, 181-188]. RSVE are fusogenic unilamellar vesicles containing two transmembrane glycoproteins: the HN (haemagglutinin-neuraminidase) protein and the F (fusion) factor. The fate of the viral proteins after fusion-mediated transplantation of RSVE into hepatoma (HTC) cell plasma membranes was studied to probe plasma-membrane protein degradation. Both protein species are degraded at similar, relatively slow, rates (t1/2 = 67 h) in HTC cells fused with RSVE in suspension. Even slower degradation rates for HN and F proteins (t1/2 = 93 h) were measured when RSVE were fused with HTC cells in monolayer. Lysosomal degradation of the transplanted viral proteins is strongly implicated by the finding that degradation of HN and F proteins is sensitive to inhibition by 10 mM-NH4Cl (81%) and by 50 micrograms of leupeptin/ml (70%).
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PMID:Sendai-viral HN and F glycoproteins as probes of plasma-membrane protein catabolism in HTC cells. Studies with fusogenic reconstituted Sendai-viral envelopes. 303 74

We have studied the molecular mechanisms of the binding and uptake of secretory and serum immunoglobulin A (IgA) of both subclasses (1 and 2) and molecular forms (monomer and polymer) by the particulate fraction of human liver homogenate and by a human hepatoma cell line (HepG2). Inhibition by asialoorosomucoid and the requirement for the presence of calcium indicated that the binding of secretory IgA and polymeric IgA1 was mediated by the asialoglycoprotein receptor. Secretory component, which functions as a receptor for polymeric IgA in several animal species, was detected in the epithelial cells of bile ducts, but not in hepatocytes. Secretory IgA and all molecular forms and subclasses of serum IgA were bound by HepG2 cells, which do not express secretory component. The requirement for the presence of calcium, the presence of a terminal galactose residue in IgA, and the molecular weight of the major plasma membrane protein responsible for binding (41,700 daltons) indicated the involvement of asialoglycoprotein receptor. Immunoglobulin A proteins bound by HepG2 cells were endocytosed and catabolized.
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PMID:Receptor-mediated binding and uptake of immunoglobulin A by human liver. 333 46

Fetal hepatocytes from rats of 13-20 days of gestation were 125I/surface-labelled. Autoradiographs of the plasma membrane proteins, analyzed by 2-D gel electrophoresis, were compared with those from adult hepatocytes and two hepatoma lines. The autoradiographic patterns of membrane proteins from 13 and 15 day fetal hepatocytes were similar. Between days 13 and 20 of gestation, at least 24 new iodinatable proteins appeared in the plasma membrane of fetal hepatocytes. Whilst between day 20 of gestation and adult life, at least 21 new membrane proteins appeared. Two membrane proteins, one acidic (MW 25,000) and a more basic protein (MW 45,000) were present in fetal hepatocytes but absent from adult hepatocytes. The membrane protein patterns from two hepatoma lines were less complex than those of adult hepatocytes.
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PMID:2-D gel membrane protein patterns during fetal rat hepatocyte development. 359 76

[3H]Cyclosporin diaziridine, a new photoaffinity label, enters rat liver cells in the dark. Photoaffinity labeling of isolated rat liver-cell plasma membranes with this probe modifies several polypeptides with molecular mass of 200, 85, 54, 50, 34 kDa. The major labeled protein of 85 kDa represents 2% of the total plasma membrane protein. A 50 kDa protein is heavily labeled in freshly isolated rat hepatocytes at low temperature and after short incubation in the dark. The 85 kDa protein becomes substituted after longer preincubation periods at temperatures above 10 degrees C. This suggests a localisation at the cytoplasmic side of the membrane. Several controls point to a specific interaction with the above mentioned proteins. Comparison of [3H]cyclosporin-diaziridine- and isothiocyanatobenzamido[3H] cholic acid-labeled membrane proteins reveals identity of binding proteins with the exception of the 85 kDa protein. However, the interaction of bile acids with the 85 kDa protein became apparent at higher concentrations as demonstrated by the differential photoaffinity labeling experiments. In the cytosol of rat liver cells, further [3H]cyclosporin-diaziridine binding proteins could be identified. In particular, a 17 kDa polypeptide was found which appears similar to cyclophilin, a protein known to be present in T-lymphocytes (R. Handschumacher et al. (1984) Science 226, 544-547: Cyclophilin. A specific cytosolic binding protein for cyclosporin A). Proteins with molecular mass of 90, 56, 30, 24, 20 kDa are labeled in AS-30D ascites hepatoma cells and those with molecular mass of 200, 150, 80, 70, 42, 25 kDa in Ehrlich ascites tumor cells.
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PMID:Identification of cyclosporin binding sites in rat liver plasma membranes, isolated hepatocytes, and hepatoma cells by photoaffinity labeling using [3H]cyclosporin-diaziridine. 394 38

The contents of mitochondrial inner membrane protein complexes were compared in normal liver and in Zajdela hepatoma mitochondria by the immunotransfer technique. Antibodies against core proteins 1 and 2, cytochrome c1, the iron-sulfur protein of Complex III, subunits I and II of cytochrome oxidase, and the alpha and beta subunits of the F1-ATPase were used. In addition, antibodies against a primary dehydrogenase, beta-hydroxybutyrate dehydrogenase, as well as the outer membrane pore protein were used. The results indicate that the components of the cytochrome chain and porin are greatly enriched in hepatoma mitochondria compared to normal rat liver mitochondria. This enrichment was also reflected in the rates of respiration in tumor mitochondria using a variety of substrates. Enrichment of porin may partially account for increased hexokinase binding to tumor mitochondria. In contrast to the respiratory chain components, the F1-ATPase and F0 (measured by DCCD binding) were not increased in tumor mitochondria. Thus, Zajdela hepatoma mitochondria components are nonstoichiometric, being enriched in oxidative capacity but relatively deficient in ATP synthesizing capacity. Finally, beta-hydroxybutyrate dehydrogenase, which is often decreased in hepatoma mitochondria, was shown here by immunological methods to be decreased by only 40%, whereas enzyme activity was less than 5% of that in normal rat liver.
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PMID:Immunochemical analysis of the membrane proteins of rat liver and Zajdela hepatoma mitochondria. 609 64

Purified membrane glycoproteins from liver or hepatoma tissue culture cells were incorporated in a right-side-out orientation into reconstituted phospholipid vesicles by a detergent dialysis method. The phospholipids were purified from membrane preparations of rat liver. The protein:phospholipid ratio of the reconstituted vesicles was optimized for efficient transfer of vesicle contents to the recipient cells, usually mouse L cells. Fluoresceinated albumin incorporated into the lumen of reconstituted vesicles was used as a marker for transfer after polyethylene glycol-mediated fusion. The redistribution and fate of both the lipids and the transferred membrane proteins were analysed by microscopic and biochemical methods. A hepatocyte-specific binding protein for galactose- or galactosamine-terminated serum glycoproteins and a set of hepatoma cell plasma membrane glycoproteins were successfully transferred to the plasma membrane of mouse fibroblasts by these methods. The biological function of the hepatic binding protein, namely delivery of the galactose-terminated glycoprotein ligand to the lysosome for degradation, was imparted to the mouse fibroblast after transfer. Further, both the polypeptide and the carbohydrate moieties of a set of membrane proteins were degraded at about the same relative rates as they had in the original donor cells, after transfer to the plasma membrane of recipient mouse fibroblasts. These studies show that the technique of inserting membrane constituents into the plasma membrane of another cell can help to elucidate the route and mechanism of membrane protein function and turnover.
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PMID:Transfer of plasma membrane proteins between cells using reconstituted membrane vesicles as shuttle vehicles. 656 Nov 33

Glycoproteins in the plasma membrane of rat hepatoma cells were labeled at their externally exposed tyrosine residues with 131I and at their galactose and sialic acid residues with 3H. The degradation of both isotopes in the total cell protein fraction, in glycoproteins purified by concanavalin A, and in glycoproteins separated on two-dimensional gels was determined. Similarly, the total cellular membrane glycoproteins were metabolically labeled with [35S]methionine and [3H]fucose. The fate of both incorporated labels was followed by lectin chromatography or by precipitation of the proteins with specific antibodies followed by electrophoretic gel separation. In both labeling experiments, the carbohydrate markers were lost from the ligand-recognized fraction with similar kinetics as from the total cell protein fraction. In some glycoprotein species which were separated by two-dimensional gel electrophoresis, the polypeptide portion exhibited up to a twofold slower rate of degradation relative to that of the carbohydrate moiety. This difference is most pronounced in carbohydrate-rich glycoproteins. To corroborate this finding, double-labeled membrane glycoproteins were incorporated into reconstituted phospholipid vesicles which were then transferred via fusion into the plasma membrane of mouse fibroblasts. Both the polypeptide and carbohydrate moieties of the transferred membrane glycoproteins were degraded with the same relative kinetics as in the original hepatoma cells. The rate of degradation is mostly a function of the structural properties of the membrane components as shown by the preservation of metabolically stable fucogangliosides of Reuber H-35 hepatoma cells transferred onto the fibroblasts. The technique of insertion of membrane components into the plasma membrane of another cell should assist in the elucidation of the exact route and mechanism of membrane protein destruction.
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PMID:Preferential degradation of the terminal carbohydrate moiety of membrane glycoproteins in rat hepatoma cells and after transfer to the membranes of mouse fibroblasts. 682 44

The sulfate transport in AH-66 hepatoma ascites cells was examined under various controlled conditions using 35SO42- as a tracer. The sulfate efflux rate was dependent on temperature, pH and anion species of the cell suspending medium. The efflux rate became saturated as the concentration of extracellular anions was increased. The efflux of anion was inhibited by some chemical reagents specifically reactive with amino or sulfhydryl groups. The results obtained in this study suggest that sulfate anions were transported by a facilitated transport system(s), and that some membrane protein(s) is involved in the anion transport system(s) of AH-66 cells. Both amino and sulfhydryl groups are thought to play a determinant role at the sulfate transport site in AH-66 cells.
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PMID:Characterization of anion permeability in AH-66 hepatoma ascites cells. 684 38

The taurocholate transport system in normal and transformed hepatocytes has been characterized using transport kinetics and photoaffinity labeling procedures. A photoreactive diazirine derivative of taurocholate, (7,7-azo-3 alpha,12 alpha-dihydroxy-5 beta-cholan-24-oyl)-2-amino [ 1,2-3H ]ethanesulfonic acid (7-ADTC), which has been shown to be a substrate for the bile acid carrier system, was photolyzed in the presence of intact hepatocytes, hepatoma tissue culture (HTC) cells, and plasma membranes derived from the hepatocyte sinusoidal surface. Irradiation of membranes in the presence of 7-ADTC resulted in the incorporation of the photoprobe into two proteins with Mr = 68,000 and 54,000. The specificity of labeling was confirmed by the significant inhibition of labeling observed when photolysis was carried out in the presence of taurocholate. The 68,000-Da protein was easily extracted with water and was shown to exhibit electrophoretic properties identical with rat serum albumin. The 54,000-Da protein required Triton X-100 for solubilization, indicating a strong association with the plasma membrane. Labeling of intact hepatocytes also resulted in specific labeling of the 54,000-Da protein. In contrast to hepatocytes, HTC cells derived from Morris hepatoma 7288C as well as H4-II-E cells derived from Reuber hepatoma H-35 exhibited a total loss of mediated bile acid uptake. Photolysis of 7-ADTC in the presence of HTC cells did not result in the labeling of any proteins, a result consistent with the loss of transport activity, and further supporting the specificity of the labeling reaction. The anion transport inhibitor N-(4-azido-2-nitrophenyl)-2-aminoethyl-[ 35S ]sulfonate, which has been shown to be a substrate for the bile acid carrier system also labeled the 54,000-Da plasma membrane protein when photolyzed in the presence of intact hepatocytes. These results suggest that the 54,000-Da protein is a component of the hepatocyte bile acid transport system and that the activity of this system is greatly reduced in several hepatoma cell lines.
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PMID:Characterization of the bile acid transport system in normal and transformed hepatocytes. Photoaffinity labeling of the taurocholate carrier protein. 686 16

1. The inactivation of cytosol enzymes in liver extracts was carried out by several subcellular fractions, with plasma membranes having the highest specific activity. Rough and smooth microsomal fractions were both active, whereas lysosmal inactivation capacity appeared to be derived entirely from contaminating plasma-membrane fragments. 2. Inactivation capacity in liver fractions was derived from parenchymal cells. Of the non-liver cells tested, plasma membranes from H35 hepatoma cells were able to inactivate glucose 6-phosphate dehydrogenase (EC 1.1.1.49), adipocyte "ghosts" showed slight activity and erythrocyte and reticulocyte "ghosts" were inactive. 3. Liposomes prepared from pure lipids with net negative, positive or neutral charge did not possess inactivation capacity. 4. Liver plasma-membrane inactivation capacity was destroyed by heating at 50 degrees C. 5. Inactivation factor solubilized from membranes by trypsin plus Triton X-100 treatment was partially purified by (NH4)2SO4 fractionation, gel filtration, ion-exchange chromatography and hydroxyapatite chromatography. 6. Partially purified inactivation factor analysed by gel electrophoresis gave a major protein band that co-migrated with capacity for inactivation of glucose 6-phosphate dehydrogenase. 7. It is concluded that inactivation factor is a membrane protein whose intracellular distribution and other properties are consistent with a possible role for this activity in the initial step of protein degradation.
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PMID:Distribution and partial purification of a liver membrane protein capable of inactivating cytosol enzymes. 737 65


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