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)

A specific antiserum was used in an enzyme-linked immunoadsorbent assay (ELISA) for tyrosine amino-transferase TAT. Protein A bound on Sepharose was allowed to react with antiserum preincubated with the enzyme. Inhibition curves in the presence of protein A were parallel to those obtained in the absence of protein A. In the case of cell-free synthesized TAT, the complex bound to the solid phase contains the (35S) labelled enzyme; the sensitivity of the test was greatly increased when the bulk of protein was discarded by pretreatment of the reaction mixture at 70 degree and chromatography on DEAE cellulose. The immunoadsorbed polypeptides were analyzed by dodecylsulfate/polyacrylamide gel electrophoresis. The pattern of polypeptides neosynthesized using RNA from different origins (rat liver, hepatoma cells) and after various treatments (glucocorticoid hormones, sodium butyrate) exhibited some different in the TAT region which can be related to the level of the specific mRNA for TAT. This method is very useful for further studies on TAT gene expression and might also shed light on the mechanism of hormonal action and drug processes.
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PMID:[Characterization of tyrosine aminotransferase by an immunoadsorption technic. Application to the measurement of the specific messenger RNA]. 612 32

Rat liver and Morris hepatoma 7777 arylsulfatase A were isolated from the soluble lysosomal extract by a procedure involving blue-Sepharose affinity chromatography, DEAE-cellulose chromatography, hydrophobic chromatography on phenyl-Sepharose and preparative polyacrylamide gel electrophoresis. The preparation obtained by this method was apparently homogenous in disc electrophoresis and in immunoelectrophoresis. The comparative studies revealed that the properties of arylsulfatase A from rat liver and Morris hepatoma 7777 are very similar, considering molecular weight of the native monomer and its subunits, the ability to form tetramers, isoelectric point, Michaelis constant and the anomalous kinetics of the reaction. The twofold elevation of arylsulfatase B activity found in Morris hepatoma 7777 suggests that the enzyme may have certain functions in tumor growth.
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PMID:Isolation and comparison of arylsulfatase A from rat liver and Morris hepatoma 7777. 613 61

When homogenates of rat liver and hepatomas were centrifuged at 78 000 X g, over 90% of liver N-acetylglucosaminyltransferase assayed with beta-galactosidase- and beta-N-acetylhexosaminidase-treated asialofetuin as acceptor was recovered in the particulate fraction, while as much as 24% of hepatoma transferase was in the supernatant fraction. The particulate transferase solubilized by 0.2% sodium deoxycholate emerged from a DEAE-cellulose column at 0.04 M NaCl (transferase A). The supernatant fractions from all the hepatomas tested contained a second N-acetylglucosaminyltransferase eluted from the column at 0.02 M NaCl (transferase B). Transferase B was absent from liver supernatant fraction. The activities of these transferases toward various acceptors and the effect of beta-N-acetylhexosaminidase on their products suggest that both transferases are UDP-N-acetylglucosamine : alpha-mannoside beta-N-acetylglucosaminyltransferase. Although ovalbumin and glycopeptide V, which was isolated from pronase digest of ovalbumin, were good acceptors, transferase A utilized ovalbumin and glycopeptide V with apparent Km values of 0.44 and 0.33 mM, respectively, whereas the corresponding values for transferase B were 4.5 and 0.050 mM.
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PMID:Studies on UDP-N-acetylglucosamine : alpha-mannoside beta-N-acetylglucosaminyltransferase of rat liver and hepatomas. 617 Mar 35

A rat hepatoma cell line was shown to synthesize heparan sulfate and chondroitin sulfate proteoglycans. Unlike cultured hepatocytes, the hepatoma cells did not deposit these proteoglycans into an extracellular matrix, and most of the newly synthesized heparan sulfate proteoglycans were secreted into the culture medium. Heparan sulfate proteoglycans were also found associated with the cell surface. These proteoglycans could be solubilized by mild trypsin or detergent treatment of the cells but could not be displaced from the cells by incubation with heparin. The detergent-solubilized heparan sulfate proteoglycan had a hydrophobic segment that enabled it to bind to octyl-Sepharose. This segment could conceivably anchor the molecule in the lipid interior of the plasma membrane. The size of the hepatoma heparan sulfate proteoglycans was similar to that of proteoglycans isolated from rat liver microsomes or from primary cultures of rat hepatocytes. Ion-exchange chromatography on DEAE-Sephacel indicated that the hepatoma heparan sulfate proteoglycans had a lower average charge density than the rat liver heparan sulfate proteoglycans. The lower charge density of the hepatoma heparan sulfate can be largely attributed to a reduced number of N-sulfated glucosamine units in the polysaccharide chain compared with that of rat liver heparan sulfate. Hepatoma heparan sulfate proteoglycans purified from the culture medium had a considerably lower affinity for fibronectin-Sepharose compared with that of rat liver heparan sulfate proteoglycans. Furthermore, the hepatoma proteoglycan did not bind to the neoplastic cells, whereas heparan sulfate from normal rat liver bound to the hepatoma cells in a time-dependent reaction. The possible consequences of the reduced sulfation of the heparan sulfate proteoglycan produced by the hepatoma cells are discussed in terms of the postulated roles of heparan sulfate in the regulation of cell growth and extracellular matrix formation.
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PMID:Structure and properties of an under-sulfated heparan sulfate proteoglycan synthesized by a rat hepatoma cell line. 623 Mar 67

Uridine kinase (ATP: uridine-5-phosphotransferase, EC 2.7.1.48) was isolated from cytosol of rat Zajdela ascite hepatoma cells by fractionation with ammonium sulfate and gel-filtration on Sephadex G-200. The enzyme has a pH optimum of 7.2 - 7.8; Km for uridine is 4.8 . 10(-5) M, that for ATP - 1.9 . 10(-4) M. The optimal ratio of ATP of Mg2+ is 2.6. The enzyme activity is inhibited by end products of pyrimidine biosynthesis with Ki for CTP of 6.0 . 10(-4) M and for UTP of 1.2 . 10(-3) M. The Ki values for uridine competitive analogs, i. e. 6-azauridine, 5-bromuridine and 5-azacytidine are equal to 4.0 . 10(-4) M, 1.5 . 10(-3) M and 2.5 . 10(-3) M, respectively. Further purification of the enzyme on Sepharose 4B allowed to obtain the most active, although heterogeneous fractions purified 86-fold, with specific activity of 11.2 mkmole/hour per mg of protein. Using electrofocusing, uridine kinase was found to consist of two major and one minor active fractions with pH of 6.2, 6.7 and 6.35, respectively. Chromatography on DEAE-cellulose DE-32 resulted in two major active fractions of the enzyme, differing in thermal stability and inhibition by CTP. It may be concluded that Zajdela ascite hepatoma cells contain at least two isoforms of uridine kinase.
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PMID:[Isolation and properties or uridine kinase from Zajdela hepatoma cells]. 627 84

A protein kinase activity with high specificity for histone H1 was isolated from mouse plasmacytoma, Morris hepatoma and normal mouse liver and compared by ion exchange chromatography after DEAE-cellulose, hydroxylapatite and Sephadex G-200 chromatography. This cAMP-independent histone H1 kinase is not affected by the heat-stable cAMP-dependent protein kinase inhibitor. It has the following particular properties: it prefers GTP to ATP as substrate and was found to be present with a great activity only in neoplastic tissues. No phosphatase activity was detected in the partially purified histone H1 kinase fraction from normal and neoplastic cells. These results suggest either an increase amount of histone H1 kinase and/or of its activator in neoplastic cells, or the presence of a strong inhibitor in normal cells. This histone H1 kinase appears to be analogous to the chromatin bound kinase which phosphorylates histone H1 at the NH2 and COOH terminal regions. We might suggest an implication of this kinase in the regulation of cell division.
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PMID:Microsomal cAMP-independent histone H1 kinase activity in plasmacytoma, Morris hepatoma and normal liver. 627 72

We have separated and characterized a Ca2+- and calmodulin-insensitive cyclic nucleotide phosphodiesterase from rat liver supernatant as well as an analogous enzyme from HTC hepatoma cells. Chromatography of rat liver supernatant on DEAE-cellulose in the presence and subsequently in the absence of 0.1 mM-CaCl2 resulted in the separation of two distinct phosphodiesterase activities, both of which preferentially hydrolysed cyclic GMP rather than cyclic AMP. One enzyme, E-Ib, was activated in the presence of Ca2+ and calmodulin, and the other, E-Ia, was not. The E-Ia enzyme, which did not bind to calmodulin-Sepharose, had Mr 325 000 and displayed anomalous kinetic behaviour [Km (cyclic GMP) 1.2 microM; Km (cyclic AMP) 15.4 microM]. The E-Ib enzyme, which bound to calmodulin-Sepharose in the presence of Ca2+, had Mr 150 000 and exhibited Michaelis-Menten kinetics for hydrolysis of cyclic GMP [Km (basal) 6.5 microM; Km (activated) 12.0 microM]. E-Ia activity was diminished by incubation with alpha-chymotrypsin and was unaffected by the action of a rat kidney lysosomal proteinase. Partial hydrolysis of E-Ib enzyme by alpha-chymotrypsin or the kidney proteinase resulted in irreversible activation of the enzyme. The E-I enzyme isolated from HTC hepatoma cells was similar to the rat liver E-Ia enzyme in many respects. Its apparent Mr was 325 000. Its activity was unaffected by calmodulin in the presence of Ca2+ or by incubation with the kidney proteinase, and was decreased by digestion with alpha-chymotrypsin. Unlike the liver E-Ia enzyme, however, the hepatoma enzyme exhibited normal kinetic behaviour, with Km (cyclic GMP) 3.2 microM. Although HTC cells contain two other phosphodiesterases analogous to those in rat liver and a calmodulin-like activator of phosphodiesterase, no calmodulin-sensitive phosphodiesterase was detected.
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PMID:Ca2+-independent cyclic GMP phosphodiesterases from rat liver and HTC hepatoma cells. 631 Nov 63

Binding sites for 3,3' -5-triiodo-L-thyronine are shown to be present in nuclei prepared from either the 5123tc or the 7777 minimal-deviation murine hepatomas. Certain of the apparent in vivo characteristics of these binding proteins in the hepatomas were found to differ from those seen in host liver nuclei. The maximal binding capacities of these binding sites in the tumors were found to be 60% of that in host rat liver nuclei, and the percent-occupancy in vivo somewhat elevated in the tumors. On the other hand, intrinsic affinity constants (Ka) were found similar when comparing the liver and hepatoma nuclei. Also, using DEAE-Sephadex column chromatography, the binding sites in the 7777 tumor were found to co-elute with similar proteins derived from host liver nuclei. It is concluded then that any differences noted between the characteristics of these binding sites in the liver and hepatoma nuclei are on a functional rather than on a structural basis. A possible connection between the lowered levels of these binding sites in hepatoma nuclei and the proliferative rates of these tumor cells is suggested.
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PMID:Partial characterization of specific nuclear triiodothyronine binding sites in two transplantable Morris hepatomas in the rat. 632 71

Several actin binding proteins were isolated from ascites hepatoma cells AH7974 by DNase I affinity chromatography. Among them, a protein having a molecular weight of 18,000 was further purified by DEAE cellulose and hydroxyapatite column chromatographies and gel filtration on a Sephadex G-75 column. The 18K protein not only inhibits actin polymerization but also depolymerizes actin filaments. This conclusion was supported by viscosity and fluorescence intensity measurements and the DNase I inhibition assay. A chemical cross-linking experiment suggested that the 18K protein binds to monomeric actin and forms and 18K-actin 1:1 complex. The net depolymerization rate by the 18K protein measured by the DNase I inhibition assay was slower than the rapid reduction of the fluorescence intensity of pyrene-labeled F-actin upon addition of the 18K protein. This result suggests that the 18K protein not only binds to monomeric actin but also binds to actin filaments directly. The sedimentation assay showed that a part of the 18K protein was cosedimented with actin filaments. Electron microscopic observations demonstrated that the 18K protein decreased the amount of actin filaments and the remaining filaments appeared to be decorated and distorted by the 18K protein. The 18K protein had no Ca2+ ion sensitivity and exhibited the same effect on both this tumor actin and muscle actin.
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PMID:An 18K protein from ascites hepatoma cell depolymerizes actin filaments rapidly. 654 14

The purification and kinetic characterization of an NAD(P)+-malic enzyme from 22aH mouse hepatoma mitochondria are described. The enzyme was purified 328-fold with a final yield of 51% and specific activity of 38.1 units/mg of protein by employing DEAE-cellulose chromatography and an ATP affinity column. Sephadex G-200 chromatography yielded a native Mr = 240,000. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed a major subunit with Mr = 61,000, suggesting a tetrameric structure, and also showed that the preparation contained less than 10% polypeptide impurities. Use of the ATP affinity column required the presence of MnCl2 and fumarate (an allosteric activator) in the elution buffers. In the absence of fumarate, the Michaelis constants for malate, NAD+, and NADP+ were 3.6 mM, 55 microM, and 72 microM, respectively; in the presence of fumarate (2 mM), the constants were 0.34 mM, 9 microM, and 13 microM, respectively. ATP was shown to be an allosteric inhibitor, competitive with malate. However, the inhibition by ATP displayed hyperbolic competitive kinetics with a KI (ATP) of 80 microM (minus fumarate) and 0.5 mM (plus 2 mM fumarate). The allosteric properties of the enzyme are integrated into a rationale for its specific role in the pathways of malate and glutamate oxidation in tumor mitochondria.
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PMID:Purification, kinetic behavior, and regulation of NAD(P)+ malic enzyme of tumor mitochondria. 672 50

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