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 ability of lymphokine-activated killer (LAK) cells to mediate antibody-dependent cellular cytotoxicity and its efficacy against a LAK-resistant tumor were investigated. Cells of the MH134 murine hepatoma line are scarcely lysed by LAK cells generated in vitro by incubation of C3H/HeN mouse spleen cells with human recombinant interleukin 2 (rIL 2). However, the splenic LAK cells potently lysed the LAK-resistant tumor cells in the presence of 11G2, a monoclonal antibody (MAb) of the IgG1 isotype reactive with a part of MM antigen. Peritoneal cells induced by daily i.p. injections of rIL 2 not only exhibited LAK activity but also mediated antibody-dependent cellular cytotoxicity against MH134 tumor cells in the presence of 11G2. The peritoneal cells exhibiting these cytotoxic activities were found to be nonadherent and nonphagocytic mononuclear cells possessing a similar cell surface phenotype as that of splenic LAK cells, that is Thy-1.2+ approximately -, Lyt-1.1-, Lyt-2.1-, and asialo GM1+. Treatment of spleen cells with antibodies and complement before culture with rIL 2 revealed that the phenotype of splenic LAK precursors is Thy-1.2- and asialo GM1+. The in vivo induction of peritoneal LAK cells in response to i.p. injections of rIL 2 was markedly depressed in C57BL/6 beige mice but was normally accomplished in BALB/c nude mice. Combined therapy of C3H/HeN mice bearing MH134 ascitic tumor with i.p. injection of rIL 2 and 11G2 brought about potent suppression of the tumor growth, resulting in the significant increase in the number of tumor-free mice, whereas neither rIL 2 nor the MAb could exhibit such a potent antitumor effect when used alone. Injection (i.v.) of anti-asialo GM1 antibody not only blocked the induction of peritoneal LAK cells by rIL 2 but also abrogated the development of the antitumor effect of the combined therapy. These results strongly suggest that combination of antitumor MAbs capable of inducing antibody-dependent cellular cytotoxicity with rIL 2 therapy could result in the generation of potent antitumor effects against LAK-resistant tumors and that asialo GM1-positive non-T-cell populations including cells of the natural killer cell lineage are essential, at least in part, for development of the antitumor effects of the combined therapy with rIL 2 and MAbs.
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PMID:Combined therapy of mice bearing a lymphokine-activated killer-resistant tumor with recombinant interleukin 2 and an antitumor monoclonal antibody capable of inducing antibody-dependent cellular cytotoxicity. 325 15

The Zajdela hepatoma is a transplantable ascitic tumor of the rat, characterized by a very simple ganglioside pattern, GM3 being the main compound. When these cells are adapted to monolayer culture, they undergo a maturation process and the total cellular ganglioside concentration increases progressively; GM2, GM1 and GD3 amounts rose and GD1a accumulated. These modifications in the ganglioside pattern complexity are not affected by the addition of ascitic fluid to the cultures, nor by growth in serum free, hormone-supplemented medium. They are totally reversible when the cultured hepatoma cells are reinjected into a rat and developed an ascitic tumour. Cell growth control and adhesion processes could be related to the maturation process of these hepatoma cells growing in monolayer, which may constitute a convenient model for further investigations on the regulation of membrane glycolipid composition by the external environment.
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PMID:Adaptation of Zajdela ascitic hepatoma cells to monolayer growth: change in the cell ganglioside pattern. 343 96

The enzyme GDPFuc:GM1 alpha 1----2 fucosyltransferase, induced by chemical carcinogens in precancerous rat liver as well as rat hepatoma cells, was found previously to be membrane bound, and was inactivated by various detergents, while the activities of many other transferases are generally enhanced by detergents (Holmes, E.H. & Hakomori, S. (1983) J. Biol. Chem. 258, 3706-3717). The effects of phospholipids and detergents on rat hepatoma H35 cells, the conditions of solubilization and subsequent affinity chromatography of the enzyme, and a possible association of phospholipids with the enzyme have been studied with the following major results: The alpha 1----2 fucosyltransferase activity in Golgi membrane was diminished on treatment of membranes with phospholipase A1 or phospholipase C. The enzyme activity was stimulated 7-fold in the presence of cardiolipin or phosphatidylglycerol (and 3-fold by phosphatidylethanolamine) but not other phospholipids. The stimulatory effect of phosphatidylglycerol was eliminated when a variety of ionic or non-ionic detergents were added to the reaction mixture, with the exception of the cationic detergent G-3634-A, which provided a 10-fold total stimulation in the presence of phosphatidylglycerol. The kinetic analysis indicated that addition of phosphatidylglycerol has a negligible effect on apparent Km values but increases the Vmax of the enzyme 5- to 6-fold. The enzyme activity was solubilized by the dialyzable detergent CHAPSO without inhibition of the enzyme activity, and the solubilized enzyme in the presence of 0.4% CHAPSO is partially purified by chromatography on GDP-hexanolamine-Sepharose. Removal of CHAPSO from the affinity purified enzyme by dialysis resulted in a 66% loss of the original activity, which was restored by addition of phosphatidylglycerol. Chromatography of the affinity-purified enzyme with 3H-labeled phosphatidylglycerol on a Biogel A0.5 column indicated an association of the enzyme with the phospholipid that occurred only in the absence of detergent. These results suggest that phospholipid has a direct effect on the enzyme and that the inhibitory effect of detergents can be ascribable to disturbing interaction between phospholipids and the enzyme. A possible role of specific phospholipids on in vivo transferase activity for glycolipids is discussed.
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PMID:The chemical carcinogen-induced enzyme, GDP-fucose: GM1 alpha 1----2 fucosyltransferase in rat liver and hepatoma: modulation by and association with phospholipids. 365 87

PC 12h pheochromocytoma cells were subcutaneously transplanted into rat. We found the transplanted tumors accumulated some fucogangliosides associated with PC 12 cells. These gangliosides were isolated and purified by DEAE-Sephadex A-25 and Iatrobeads column chromatographies. Their structures were determined by fast atom bombardment mass spectrometry, proton nuclear magnetic resonance spectrometry, permethylation study, and sequential degradation using various exoglycosidases and mild acid hydrolysis. Two tumor-associated fucogangliosides were found to possess the blood group B determinant as follows: G6: IV2Fuc alpha, IV3Gal alpha, II3NeuAc, GgOse4Cer; G11: IV2Fuc alpha, IV3Gal alpha, II3 (NeuAc)2, GgOse4Cer. A ganglioside with the similar structure as ganglioside G6 was isolated from rat hepatoma cells (Holmes, E.H., and Hakomori, S-I. (1982) J. Biol. Chem. 257, 7698-7703). However, ganglioside G11 has not previously been reported in the literature. These fucogangliosides reacted with the monoclonal antibody prepared by immunizing mice with PC 12h cells. Other fucogangliosides were also found to accumulate in the transplanted tumor tissues. They were identified as fucosyl-GM1 and fucosyl-GDlb. These fucogangliosides did not react with the monoclonal antibody against PC 12h cells.
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PMID:Characterization of tumor-associated fucogangliosides from PC 12 pheochromocytoma cells. 365 55

Rat stomach gangliosides were purified and their distribution in the different tissue compartments was established. Three major monosialogangliosides were found: GM3, GM1, and a ganglioheptaosylceramide carrying a blood group B determinant. This latter structure was characterized by exoglycosidase degradation, immunostaining with a monoclonal anti-blood group B antibody on thin layer chromatogram, permethylation analysis, electron-impact mass spectrometry of the permethylated-reduced and trimethylsilylated molecule, and 1H NMR spectroscopy of the native ganglioside. It was found to be (Formula: see text) i.e. a GM1 structure substituted with the blood group B determinant and was called B-GM1. A similar structure has been previously identified in precancerous rat liver and chemically induced rat hepatoma (Holmes, E. H., and Hakomori, S. (1982) J. Biol. Chem. 257, 7698-7703). Fucosyl-GM1 was also detected as a minor ganglioside in rat gastric mucosa. The ganglioside profile was modified during the postnatal development. The contribution of GM3 and GD3, which accounted for 95% of the ganglioside sialic acid at birth, decreased during the first 3 weeks of life. GM1, fucosyl-GM1, and B-GM1 were not detected at birth. The concentration of the fucogangliosides increased during the 2nd and 3rd weeks after birth, was stable during the 4th week and then decreased, whereas that of GM1 increased steadily between 6 days and 2 months of age. B-GM1, which has been defined as a tumor-associated ganglioside in the rat liver, was found to be a developmentally regulated antigen of the normal rat stomach.
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PMID:Developmental changes of gangliosides of the rat stomach. Appearance of a blood group B-active ganglioside. 368 Feb 54

Previous studies indicated that accumulation of alpha-fucosyl-GM1 (IV2FucII3NeuAcGgOse4Cer) and alpha-galactosyl-alpha-fucosyl-GM1 (IV3GalIV2FucII3NeuAcGgOse4Cer) occurs in precancerous livers of rats fed the chemical carcinogen N-2-acetylaminofluorene, before development of hepatoma. Both fucogangliosides were completely absent in normal rat liver as well as in livers of rats fed a nonhepatic carcinogen and tumor promoters (Holmes, E.H., and Hakomori, S. (1982) J. Biol. Chem. 257, 7698-7703). The enzymatic basis of the chemical changes described above is reported in this paper. The alpha-L-fucosyltransferase activity toward GM1 (II2NeuAcGgOse4Cer) as well as asialo-GM1 (GgOse4Cer) was almost undetectable in extracts from normal rat liver, but significant activity of this enzyme was detected in extracts of rat livers after 4 weeks of feeding a diet containing N-2-acetylaminofluorene. The same enzyme activity in cultured rat hepatoma cells was 18- to 47-fold higher than in N-2-acetylaminofluorene-fed rat liver. In contrast, alpha-galactosyltransferase activity with a broad substrate specificity was detected in normal as well as in N-2-acetylaminofluorene-fed liver, although the specific activity of this enzyme in Golgi membranes in precancerous liver was significantly higher than that of normal rat liver. Thus, the appearance of alpha-fucosyl-alpha-galactosyl-GMI in precancerous liver is due to an induction of synthesis of alpha-fucosyl-GMI which is the substrate for the normally existing alpha-galactosyltransferase. The activity of alpha-fucosyltransferase was highly specific toward a substrate structure Gal beta 1 leads to 3GalNAc beta 1 leads to R in GMI or asialo-GMI and showed an anomalous inhibition by a large variety of detergents tested. In contrast, the alpha-galactosyltransferase showed a wide substrate specificity, activated by detergents and Mn2+ ion. Membrane alterations in precancerous and malignant transformation of rat liver is associated with an induction of an unusual alpha-fucosyltransferase which is the key step in synthesis of both fucogangliosides.
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PMID:Enzymatic basis for changes in fucoganglioside during chemical carcinogenesis. Induction of a specific alpha-fucosyltransferase and status of an alpha-galactosyltransferase in precancerous rat liver and hepatoma. 640 18

Spectrum of gangliosides was studied in some tumors. It was the same in a hepatocellular carcinoma induced by N-nitrosomorpholine in Wistar rats as in control liver In addition, several tumors contained an unidentified fraction between GD1b and GT1b. There were total ganglioside differences both in tumours and controls. Lymphatic leukemia samples had lower contents of GD1a and higher contents of GM1 ganglioside. Spontaneous breast sarcoma of Lewis rats (SAM) failed to differ from a sarcoma of low grade malignancy induced by ferridextran (FL) with the exception of slight increase in GD1a and GD2. All the tumours contained higher gangliosides in concentration at least the same as controls.
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PMID:[Composition of gangliosides in experimental rat tumors]. 660 4

We isolated the Golgi-rich fraction from rat ascites hepatoma AH-130 cells and rat liver, and compared some properties of glycosyltransferases using various acceptors. The specific activity of sialyltransferase in the hepatoma Golgi fractions was reduced to 19--41% depending upon the acceptor used (asialo-orosomucoid, asialo-fetuin or asialo-mucin), as compared to that of the normal liver Golgi fraction. However, no significant difference between the enzymes from the two sources was observed in pH optimum, requirements for the enzyme activity, and Km values for the donor substrate (CMP-sialic acid) and various acceptors used. The specific activity and other kinetic parameters of hepatoma galactosyltransferase were not significantly different from those of the liver enzyme, when assayed with N-acetylglucosamine, asialo-agalacto-fetuin and asialomucin as acceptors. Glycosyltransferases in the hepatoma and liver Golgi fractions were then assayed with plasma membranes from both sources as exogenous acceptor. Hepatoma sialyltransferase activity was much lower (1/2 to 1/4) than that of the normal liver. Galactosyltransferase activity, however, was found to be slightly higher in the hepatoma Golgi fraction than in the normal liver. Acceptor plasma membranes which were thus glycosylated in vitro by each Golgi enzyme were separated into protein and lipid fractions, and the latter fraction was further analyzed by thin layer chromatography. The results suggest that the hepatoma Golgi had much lower levels of glycoprotein : sialyltransferase and asialo-GM1 : sialyltransferase, but had an increased activity of asialo-GM3 : sialyltransferase. It is also suggested that the hepatoma Golgi had a high activity for the formation of di- and tri-glycosylceramides, for which the liver Golgi showed negligible activity.
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PMID:Characterization of glycosyltransferases in the Golgi complex from rat ascites hepatoma AH-130 cells: a comparison with those from normal liver. 681 67

A novel fucoganglioside has been found to be accumulated in the liver of rats fed N-2-acetylaminofluorene before development of hepatoma. This new fucoganglioside persisted in hepatoma in vivo but was completely absent in normal rat liver as well as in livers of rats fed the nonhepatic carcinogen, acetylaminophenanthrene, and a tumor promoter, trichloro-2,2-bis-(chlorophenyl)ethane. The ganglioside was isolated by high performance liquid chromatography and the structure was determined by methylation analysis, sequential degradation by various exoglycosidases, and by direct probe mass spectrometry of the permethylated derivative. This ganglioside, present in precancerous liver and in hepatoma in vivo, was identified as having a new structure with a substitution identical with blood group B determinant as shown below: (formula, see text) A second fucoganglioside was detected in lower quantity in precancerous liver and in hepatoma in vivo but not in control tissue. This ganglioside co-migrated with the fucoganglioside isolated from H-35 hepatoma cells in vitro whose structure was identified (Baumann, H., Nudelman, E., Watanabe, K., and Hakomori, S. (1979) Cancer Res. 39, 2637-2643) as fucosylated GM1 ganglioside (Fuc alpha 1 leads to 2Gal beta 1 leads to 4GalNAc beta 1 leads to 4 [NeuAc alpha 2 leads to 3]Gal beta 1 leads to 4Glc beta 1 leads to 1Cer). The results indicate that synthesis of new fucolipids is already induced at an early stage during the process of chemical carcinogenesis in rat liver which could be a unique membrane marker for diagnosis and therapy of a hepatoma and its premalignancy.
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PMID:Isolation and characterization of a new fucoganglioside accumulated in precancerous rat liver and in rat hepatoma induced by N-2-acetylaminofluorene. 708 43

A ganglioside named GM1b (Hirabayashi, Y., Taki, T., and Matsumoto, M. (1979) FEBS Let. 100, 253-257) with a sugar composition identical with that of GM1, II3 alpha NeuAc-GgOse4Cer (Gal beta 1 leads to 3GalNAc beta 1 leads to 4Gal(3 leads from 2 alpha NeuAc) beta 1 leads to 4G1c beta 1 leads to 1'ceramide), isolated from rat ascites hepatoma was further characterized. In contrast to GM1, the sialic acid in this ganglioside was susceptible to clostridial sialidase in the absence of bile salts. Based on the sequential enzymic hydrolysis, permethylation analysis and direct probe mass spectrometric analysis, the structure of this ganglioside is determined to be: NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAc beta 1 leads to 4Gal beta 1 leads to 4Glc leads to ceramide. The structure of this ganglioside is identical with that biosynthesized in vitro (Stoffyn, A., Stoffyn, P., and Yip, M. C. M. (1975) Biochim. Biophys. Acta 409, 97-103).
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PMID:Further characterization of the structure of GM1b ganglioside from rat ascites hepatoma. 728 5

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