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)

Ascites hepatoma AH-66 and 3'-Me-DAB-induced hepatoma of rats contain highly active N-acetylglucosaminyltransferase III (GnT-III) which catalyzes the addition of N-acetylglucosamine through a beta 1-4 linkage (bisecting N-acetylglucosamine) to the beta-linked mannose of the trimannosyl core of asparagine-linked sugar chains, whereas normal rat liver contains very little. The high activity was also detected in fetal rat liver, newborn rat liver, hyperplastic nodules and various transplantable hepatomas.
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PMID:High expression of an N-acetylglucosaminyltransferase III in 3'-methyl DAB-induced hepatoma and ascites hepatoma. 298 Oct 47

The oligosaccharide structure of human C4 was studied by using C4 purified from plasma and C4 secreted by human hepatoma-derived cell line, HepG2. The alpha- and beta-chains of human C4 are glycosylated, whereas the gamma-chain is devoid of carbohydrate. The alpha-chain has three complex fucosylated oligosaccharides of the biantennary type, one each on the alpha 2, alpha 3, and alpha 4 fragments. The beta-chain has a single high mannose oligosaccharide primarily of the Man9GlcNAc2 type. The approximately 2000 Mr difference between the alpha-chains of the two C4 gene products (C4A and C4B) was localized to the alpha 2 fragment and is not due to carbohydrate. Sulfation of the C4 alpha-chain was localized to the alpha 4 fragment of the alpha-chain. Hence, the Mr difference between the two gene products is likely to reside in amino acid differences. The oligosaccharide structure of three incompletely processed C4 molecules was also analyzed. These molecules have the oligosaccharide composition of the appropriate individual subunits. Therefore, intracellular proteolytic processing to the multi-chain form of C4 is not required for proper oligosaccharide processing.
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PMID:Oligosaccharide structure of human C4. 298 21

During the first stage of infection, the paramyxovirus Sendai virus attaches to host cells by recognizing specific receptors on the cell surface. Productive virus-cell interactions result in membrane fusion between the viral envelope and the cell surface membrane. It has recently been shown that the ganglioside GD1a and its more complex homologs GT1b and GQ1b are cell surface receptors for Sendai virus. We report in this paper that the temperature-sensitive mutant ts271 of the Enders strain of Sendai virus lacks the viral attachment protein HN and the biological activities of hemagglutination and sialidase activity associated with it when the virus is grown at 38 degrees C. This HN- virus was unable to infect or agglutinate conventional host cells that contained receptor gangliosides and were readily infected by the parental wild-type virus. The HN- virus did, however, attach to and infect Hep G2 cells, a line of hepatoma cells that retains the asialoglycoprotein receptor (ASGP-R) upon continuous culture. This receptor is a mammalian lectin that recognizes galactose- or N-acetylgalactosamine-terminated proteins. In accordance with the known properties of this receptor, infection by the HN- virus was abolished by treatment of Hep G2 cells with sialidase, by the presence of Ca2+ chelators, and by competition with N-acetylgalactosamine, asialoorosomucoid, and antibody to the receptor. F, the only glycoprotein on the HN- virus, was shown to compete with the galactose-terminated protein asialoorosomucoid for the ASGP-R. The ability of the HN- virus to cause cell-cell fusion of Hep G2 cells indicated that attachment of this virus to the ASGP-R still permitted viral entry by its usual mode--i.e., membrane fusion at the cell surface. These results open up the possibility that enveloped viruses, which contain glycosylated proteins or lipids, may make use of naturally occurring lectins in addition to their normal receptors as a means of attachment to host cells.
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PMID:An alternative route of infection for viruses: entry by means of the asialoglycoprotein receptor of a Sendai virus mutant lacking its attachment protein. 298 37

Some aspects of carbohydrate metabolism were investigated in three non-malignant, glycogen storing, cell lines derived from a primary culture of rat hepatocytes, and in the Morris hepatoma 3924 cells. The three cell lines show biochemical alterations which are, to a large extent, similar to those found in the hepatoma cells: increased activity of glycolytic enzymes and decreased activity of gluconeogenetic enzymes. An increase of glucose-6-phosphate dehydrogenase activity is also found. The three cell lines, as the Morris hepatoma cells, actively convert glucose into lactate under the in vitro conditions of culture. Fructose is not taken up as quickly as glucose and galactose is not metabolized. As compared with normal hepatocytes, the three cell lines have altered metabolism and growth behaviour. They largely resemble the preneoplastic cells appearing in rat liver at the early stages of experimental carcinogenesis.
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PMID:Study of carbohydrate metabolism in glycogen storing cell lines derived from cultured rat hepatocytes. 298 18

The biosynthesis and post-translational processing of the insulin-like growth factor II (IGF-II) receptor has been studied in H-35 hepatoma cells using a specific polyclonal anti-receptor immunoglobulin preparation. Cells were pulse-labeled with [35S]methionine followed by incubation with excess unlabeled methionine (chase). Gel electrophoresis of the immunoadsorbed receptors shows that the receptor is first synthesized as a 245-kDa precursor which is transformed to the mature 250-kDa form with a half-time of about 2 h. The 245-kDa precursor could also be labeled biosynthetically with [3H]mannose, only one-half of which was ultimately found associated with the 250-kDa product. Neuraminidase converts the 250-kDa receptor species to a 245-kDa form. Whereas the 250-kDa receptor is insensitive to detectable cleavage by endoglycosidase H, digestion of the 245-kDa species with this enzyme produces a 232-kDa form. A similar 232-kDa receptor species accumulates in H-35 cells incubated with tunicamycin (2 micrograms/ml). This tunicamycin-induced aglyco-receptor is not further processed to the 250-kDa form. Monensin (50 nM) blocks receptor processing at the 245-kDa stage. Endoglycosidase H treatment of the monensin-induced 245-kDa species indicates that this is a mixture of partially processed precursors having equivalent Mr. No evidence was obtained for the presence of O-linked oligosaccharides on the IGF-II receptor. The IGF-II binding activity of the three different biosynthetic forms of the receptor was assessed by affinity cross-linking of 125I-IGF-II to the receptors using disuccinimidyl suberate. Both the mature 250-kDa receptor and the neuraminidase-digested 245-kDa form specifically bound 125-I-IGF-II. However, the 232-kDa aglyco-receptor had no detectable IGF-II binding activity using this method. In summary, these studies show: 1) that the H-35 cell IGF-II receptor is synthesized first as a 245-kDa precursor having 4-6 high-mannose oligosaccharide side chains, 2) processing of the receptor oligosaccharides by mannose removal and terminal sialylation converts the 245-kDa precursor to the 250-kDa mature product which has been previously identified as the functional receptor in the plasma membrane, 3) the apparent molecular mass of the receptor in the absence of N-glycosylation is 232-kDa, and 4) glycosylation of the IGF-II receptor is required for the acquisition of IGF-II binding activity.
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PMID:Biosynthesis and processing of the type II insulin-like growth factor receptor in H-35 hepatoma cells. 299 8

The binding, internalization, processing and release of labeled cyanocobalamin (CN[57Co]Cbl) bound to human transcobalamin II (TC II) were studied in HepG2 cells, a line of hepatocytes derived from a human hepatoma. The cells bound the TC II-Cbl by specific, high affinity receptors. Within the cell, the CN-Cbl was promptly freed from TC II and the CN-Cbl converted to more active forms including adenosyl Cbl (AdoCbl) and methyl Cbl (MeCbl). Whereas free labeled Cbl was still present at 72 hours after entry, the cells also bound Cbl to an intracellular binder (ICB) presumed to represent the holo enzymes dependent on Cbl. At levels of TC II that saturated the receptors for TC II-Cbl, much of the Cbl entering the cells remained free and was converted to AdoCbl. Under these circumstances the cells released free Cbl, mostly AdoCbl. Human R type binders of Cbl, which are glycoproteins and some having a terminal galactose, were bound by the HepG2 cells. The binding was characteristic of the receptor system responsive to a terminal galactose, or asialoglycoproteins, but was inconsistent and of low affinity. Cbl bound to R binder was internalized and converted to coenzyme forms of Cbl, but the process was much less effective than when the Cbl entered via the TC II receptor system. It was concluded that the receptors for R-Cbl were unlikely to contribute to the physiologic transport of Cbl in man, but may function in some yet unknown way.
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PMID:The metabolism of cobalamin bound to transcobalamin II and to glycoproteins that bind Cbl in HepG2 cells (human hepatoma). 299 22

A 65-year-old woman with cirrhosis and hepatoma lapsed into deep coma, hypotension, and acidosis after ingestion of 3 gm of Laetrile, a cyanogenetic glucoside. After initial treatment, the patient regained consciousness, but massive hepatic damage led to her death. We suggested a possible relationship between Laetrile poisoning and massive hepatic necrosis.
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PMID:Laetrile intoxication and hepatic necrosis: a possible association. 300 27

We studied the effect of the plant alkaloid castanospermine on the biosynthesis and secretion of human hepatoma glycoproteins. The HepG-2 cells, grown in the presence or absence of the alkaloid, were labelled with [2-3H]mannose and then the labelled glycopeptides were prepared by Pronase digestion. This material was analysed by gel filtration on Bio-Gel P-4 before and after treatment with endo-beta-N-acetylglucosaminidase H. Castanospermine caused an accumulation of high-mannose oligosaccharides, by 70-75% over control. The major accumulated product, which could also be labelled with [3H]galactose and was only partially susceptible to alpha-mannosidase digestion, was identified by h.p.l.c. as a Glc3Man9GlcNAc. Thus the alkaloid inhibits glucosidase I in the human hepatoma cells. Analysis of total glycoproteins secreted by the cells into the medium revealed the presence of only complex oligosaccharides in both control and treated cultures, and the amount of the oligosaccharides labelled with radioactive mannose, galactose or N-acetylmannosamine, secreted by treated cells, was decreased by about 60%. The rate of secretion of total protein labelled with [35S]methionine and precipitated from the medium with trichloroacetic acid was inhibited by up to 40% in the presence of castanospermine. Pulse-chase studies utilizing [35S]methionine labelling were performed to study the effect of the alkaloid on secretion of individual plasma proteins. Immunoprecipitation at different chase times with monospecific antisera showed that castanospermine markedly decreased the secretion rates of alpha 1-antitrypsin, caeruloplasmin and, to a lesser extent, that of antithrombin-III. Secretions of apolipoprotein E, a glycoprotein containing only O-linked oligosaccharide(s), and albumin, a non-glycosylated protein, were not affected by the drug. It is suggested that castanospermine inhibits secretion of at least some glycoproteins containing N-linked oligosaccharides, owing to the inhibition of oligosaccharide processing.
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PMID:Castanospermine inhibits glucosidase I and glycoprotein secretion in human hepatoma cells. 300 19

Human hepatoma (Hep G2) cells were shown to synthesize and secrete a novel T4-binding protein, called 27K protein for its apparent mol wt on sodium dodecyl sulfatepolyacrylamide gel electrophoresis. The mRNA coding for this protein was characterized by immunoprecipitation of [125I]T4 bound to 27K protein secreted into the medium of oocytes injected with total Hep G2 RNA. Sucrose gradient fractionation of RNA from Hep G2 cells showed that TBG mRNA and 27K mRNA had different sizes, indicating that TBG and 27K protein are two distinct proteins. In vitro translation of RNA in a rabbit reticulocyte lysate demonstrated that the translation product immunoprecipitated by anti-27K serum had the same mol wt as the immunoprecipitated protein from whole cells labeled with [35S]methionine, thus suggesting that 27K protein is neither derived from TBG nor synthesized through a larger mol wt precursor, and also that it does not contain carbohydrates. The absence of carbohydrates was further supported by the observation that [3H]mannose was not covalently bound to the 27K protein when Hep G2 cells were labeled with [3H]mannose, nor was there a shift in apparent mol wt when the cells were treated with the glycosylation inhibitor tunicamycin. The kinetics of secretion of 27K protein were similar to those of albumin and faster than those of TBG, which is also in keeping with the nonglycoprotein nature of 27K protein.
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PMID:Biosynthesis of a novel thyroxine-binding protein (27K protein) in human hepatoma (Hep G2) cells. 300 58

A polyclonal antibody to the catalytic subunit of rat kidney Na,K-ATPase has been raised in rabbits and used to analyze the turnover of the subunit in the rat hepatoma cell line HTC. It had been shown previously (Baumann, H., and Doyle, D. (1978) J. Biol. Chem. 253, 4408-4418) that the membrane proteins of these cells displayed multicomponent turnover kinetics, the minority of the surface proteins turning over with a half-time of about 20 h and the remainder with a half-time of about 100 h. That the antibody precipitated both the alpha (catalytic) and beta (glycosylated) subunits of the Na,K-ATPase from Triton extracts of HTC cells could be demonstrated following metabolic labeling of the cells with either [3H]leucine or a mixture of [3H] mannose and [3H]fucose, but following labeling with [35S]methionine radioactivity was found only in the alpha subunit of the precipitates. Incorporation of [35S]methionine into the alpha subunit could be detected 2 min after addition of the isotope to the cell suspension. Then and at all times thereafter the label was recoverable only from the particulate fraction of a 150,000 X g 60-min centrifugation; no labeled alpha subunit was ever detected in the supernatant fraction. By quantitative densitometry of radioautographs of sodium dodecyl sulfate-polyacrylamide gels of labeled antibody precipitates, it could be shown in pulse-chase experiments that the specific activity of the alpha subunit remained unchanged for 3-4 h (transit time) after the pulse was initiated and that the activity subsequently decayed exponentially with a half-time of 18 h. In a population growing with a generation time (tG) of 33 h, this decay corresponds to a turnover rate constant of 0.49/tG. The catalytic subunit is among those membrane proteins with a rapid turnover rate.
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PMID:Turnover of the catalytic subunit of Na,K-ATPase in HTC cells. 301 30

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