UMLS:C0019204 - FACTA Search

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

The following three parameters were studied in Morris hepatomas of different growth rates: (a) the specific activity of guanosine dephosphate (GDP)-fucose:glycoprotein fucosyltransferase and cytidine monophosphate (CMP)-N-acetylneuraminic acid:glycoprotein sialyltransferase, (B) the content of GDP-fucosee and CMP-N-acetylneuraminic acid, and (c) the activity of alpha-L-fucosidase and neuraminidase. Fucosyltrasferase activities were significantly elevated in all hepatomas investigated. Especially high levels of enzyme were measured in the rapidly growing tumors 7777, 66, and 3924A. The increase varied between 2- and 3-fold when compared with the corresponding host liver. Conversely, the activity of the sialytransferase was greatly decreased in all hepatoma lines with a rapid or intermediate growth rate. In the fast-growing tumor 9618A2, the activity was reduced to 8%. GDP-fucose and CMP-N-acetylneuraminic acid were determined by the isotope dilution technique. In normal rat liver from Buffalo or ACl rats, the concentration of GDP-fucose was 6.5+/-0.9 and 9.5+/-1.1nmoles/g, wet weight, respectively. In the fast-growing hepatomas 3924A and 9121, levels up to 21.5 nmoles/g, wet weight, were found, However, the content of CMP-N-acetylneuraminic acid in hepatomas was indluenced to a lesser extent by the degree of differentiation of the tumor. In the most rapidly growing tumor, 9618A2, a level of alpha-L- fucosidase seven times higher than in host liver was determined. Moreover, there existed a correlation bewteen the age of the hepatoma and enzyme activity. Within the 2nd week after inoculation, fucosidase activity increased from 130 to 343 nmoles/hr/mg of protein. Neuraminidase was measured in a new linked assay system. The activity of this enzyme was lowered by 50% or was at least unchanged when compared to the activity in host liver. Our results indicate that specific alterations of fucose metabolism are a characteristic feature of Morris hepatomas.
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PMID:Glycosyltransferases and glycosidases in Morris hepatomas. 19 53

Cell-surface glycoprotein of 3 rat hepatoma strains and late-embryonic liver was metabolically labelled in vivo with [3H]- or [14C]-fucose. Trypsinization of the cells and exhaustive pronase digestion of combined hepatoma-liver trypsinates followed by gel filtration over Sephadex-Biogel mixtures, yielded elution profiles that contained more early-eluting (high-mol.-wt.) glycopeptides for hepatomas than for liver. At least 3 factors were identified which acted to augment the fraction of early-eluting tumour glycopeptides: (a) increase of neuraminidase-sensitive sialic acid, (b) increase of neuraminidase-insensitive sialic acid that was sensitive to mild HCl hydrolysis, and (c) presence of sugar sulphate groups contributing to a restricted extent, relative to possible unknown factor(s). Whether (a), (b) or (c) operated depended on the hepatoma strain or its mode of growth. Notwithstanding these differences in the nature of the increase in early-eluting glycopeptides, the increase itself appears not to be due to growth per se, nor to an embryonic expression, but rather may serve as a marker of tumourigenicity.
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PMID:Comparison of cell-surface glycoproteins of rat hepatomas and embryonic rat liver. 19 23

Alkaline phosphatase of cultured rat ascites hepatoma cells has been purified by butanol extraction, DEAE-cellulose column chromatography, gel filtration through Sephadex G-200, concanavalin A-Sepharose affinity chromatography, and polyacrylamide gel electrophoresis. Affinity chromatography confirmed the glycoprotein nature of alkaline phosphatase from cultured rat ascites hepatoma cells. Electrophoresis on polyacrylamide gels of various concentrations indicated a molecular weight of 290,000. The molecular weight of the subunit was estimated to be 72,000 by SDS-polyacrylamide gel electrophoresis. These findings suggest that alkaline phosphatase of cultured rat ascites hepatoma cells is a tetramer with a subunit molecular weight of 72,000.
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PMID:Purification and characterization of alkaline phosphatase from cultured rat ascites hepatoma cells. 20 82

A study of the serum proteins pattern of 30 patients with primary liver cell carcinoma and 11 with amoebic liver abscess was carried out. When compared with controls significant differences were found for both conditions in the values of pre-albumin, transferrin, albumin, haptoglobin, alpha 2-macroglobulin, and alpha 2HS-glycoprotein. In the differential diagnosis of amoebic liver abscess and primary hepatic carcinoma, the estimation of albumin, alpha 1-acid glycoprotein, haptoglobin ceruloplasmin, alpha 2H2-glycoprotein and transferrin was found helpful.
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PMID:The serum protein pattern in primary hepatoma and amoebic liver abscess. 22 36

Sialyltransferase (EC 2.4.99.1) is released in large amounts by two hepatoma cell lines (SK-H-MA and CLH) established from patients with hepatocellular carcinoma (hepatoma). This release requires protein synthesis and glycoprotein synthesis, but not cell division. In contrast, sialyltransferase is released in minimal amounts by a cell line derived from normal human liver (Chang). The hepatoma cells also contain more surface and cellular sialyltransferase activity than Change cells. Hepatoma sialyltransferase has properties similar to other sialyltransferases. Using a calibrated Sephadex G-200 column, it is resolved into two forms with molecular weights of 65 000 and 80 000.
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PMID:The specific release of sialytransferase activity by human hepatoma cell lines. 22 27

Concentrations of trypsin that bring about aggregation of hepatoma tissue culture (HTC) cells also release from the cell surface an Mr = 55,000 glycopeptide fragment. This glycopeptide fragment also accumulates in the medium, including serum-free medium, as a normal consequence of membrane protein turnover. The trypsin-released glycopeptide is labeled when cells are grown in the presence of fucose or leucine before treatment of the cells with the protease. Similarly, the glycopeptide fragment can be labeled by reacting cells in situ by lactoperoxidase-catalyzed radioiodination or by tritiated borohydride reduction of cells treated first with neuraminidase and galactose oxidase. The tryptic glycopeptide fragment was purified by concanavalin A-Sepharose chromatography, and hydroxyapatite chromatography in the presence of dodecyl sulfate. The amino acid and carbohydrate composition was determined, as was the sensitivity of the purified glycopeptide to a variety of endo- and exoglycosidases. The purified glycopeptide contains an average of 17 sialic acid residues and hence, shows charge heterogeneity after electrophoresis in isoelectric focusing gels. The charge heterogeneity can be eliminated completely by treatment with neuraminidase. The glycopeptide after this treatment is homogeneous. The trypsin-sensitive membrane glycoprotein which is the source of the Mr = 55,000 glycopeptide was identified by two-dimensional gel electrophoretic analysis of labeled cells, treated or not treated with trypsin. This glycoprotein, which has an apparent molecular weight of 85,000 and forms a homodimer in the presence of calcium ions, was purified and its identity as the parent of the Mr = 55,000 glycopeptide was confirmed by showing that the same Mr = 55,000 fragment was released by trypsin from the purified glycoprotein as was released from the intact cells.
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PMID:Effect of trypsin on the cell surface proteins of hepatoma tissue culture cells. Characterization of a carbohydrate-rich glycopeptide released from a calcium binding membrane glycoprotein. 43 68

Two tumor cell-aggregation factors of glycoprotein nature, separated from rat ascites hepatoma AH136B cells (forming cell islands in vivo), had different antigenicity; one was not absorbed by immunoadsorbent chromatography with anti-rat serum antibody and the other was. The unabsorbed factor induced aggregation (as shown in the form of simple apposition) of rat ascites hepatoma AH109A cells (present as a free form in vivo) and cell adhesiveness characterized by well-defined tripartite junctional complexes, including intermediate junctions, desmosomes, and tight junctions. In contrast, the absorbed factor from AH136B cells, AH109A cells or normal rat serum aggregated AH109A cells but failed to develop the junctional complexes; only simple apposition was observed. AH109A cells themselves contained the absorbed factor but not the unabsorbed factor. AH136B cells proliferating in the skin developed the junctional complexes, while AH109A cells proliferating in the skin did not from any junctional complexes.
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PMID:A possible mechanism for island formation by rat ascites hepatoma cells with special reference to the function of aggregation factor at the cell surface. 43 78

A major glycoprotein of the plasma membranes of AH-66 hepatoma ascites cells was isolated in essentially pure form and in milligram amounts. The plasma membranes were solubilized with a solution containing both 0.3 M lithium diiodosalycylate and 0.2% cetylpyridinium chloride, and further extracted with 50% phenol, followed by gel filtration on Sepharose 6B in the presence of 0.1% Ammonyx-LO at pH 8.0. The apparent molecular weight of the purified glycoprotein was estimated to be 165 000 in 5.6% polyacrylamide gels, of which 54% was carbohydrate and 46% was protein. The chemical composition of the glycoprotein resembles glycophorin A from human erythrocyte membranes in that it has a high content of N-acetylgalactosamine, N-acetylglucosamine, galactose and sialic acid and a particularly large proportion of serine, threonine, aspartic acid and glutamic acid.
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PMID:Isolation and partial characterization of the major glycoprotein from the plasma membranes of AH-66 hepatoma cells. 46 37

Novikoff rat hepatoma cells (subline N1S1-67) grew when 30 mM L-lactate or pyruvate was substituted for D-glucose in Swim's medium 67 supplemented with dialyzed calf bovine serum. A 2.6-fold increase in cell number (1.34 generations) was obtained. RNA, DNA, protein and dry weight increased in proportion to the cell number. In control medium lacking L-lactate, pyruvate or D-glucose, cell growth of 0.42 generation was obtained. Growth with L-lactate was dependent on the L-lactate concentration up to 30 mM at which the greatest increase in cell number occurred. Significant growth did not occur when D-lactate, glycerol, acetate, alpha-ketoglutarate, succinate or malate, each at 30 mM, was substituted for D-glucose. Growth in the medium containing L-lactate was not due to the utilization of D-glucose or some other substrate carried into the culture with the inoculum. Medium contamination by D-glucose was insufficient to explain the growth obtained in the medium containing L-lactate, but could have accounted for growth in the control medium. Throughout growth, the concentration of L-lactate in the medium remained unchanged. The increase in cell number cannot be explained by L-lactate triggering the utilization of glycogen, nor by oxidation and degradation of protein, amino acids, fatty acids, or carbohydrate moieties of glycoprotein in the medium. L-Lactate does not serve as a significant carbon or energy source in the growth of these cells.
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PMID:L-Lactate or pyruvate stimulated growth of Novikoff rat hepatoma cells. 52 11

The early steps in the biosynthesis of glycoproteins associated with the plasma membranes of rat hepatoma tissue culture cells has been analyzed. By measuring the effect of tunicamycin on the incorporation of [3H] mannose and [3H] fucose into cell glycoproteins, it was determined that an interval of about 1 h was required to transfer the glycoprotein from site of mannosylation to the site of fucosylation. This result was corroborated by an analysis of the time required for the appearance of either mannose or fucose-labeled glycoproteins at the cell surface. The separation of membrane glycoproteins by a two-dimensional gel system allowed the visualization of the modifications leading to both size and charge heterogeneity of these proteins. By following the changes in electrophoretic mobility introduced into membrane glycoproteins during a chase period after a pulse labeling, the time course of these molecular alterations could be estimated. Several glycoproteins have apparently higher rates of synthesis than the bulk of membrane-associated glycoproteins. Most of these glycoproteins were released within 2 h after biosynthesis from the intracellular membrane fraction and appear after 3 h in the medium. In addition to the glycoproteins that contain both mannose and fucose and that show a high degree of charge heterogeneity, there are other membrane-bound species that are not noticeably modified by the incorporation of fucose or sialic acids. These glycoproteins could represent constituents limited to the internal membrane system of the HTC cell.
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PMID:Biosynthesis of membrane glycoproteins in rat hepatoma tissue culture cells. 54 34

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