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 uptake of a linear peptide with renin-inhibiting activity (code number EMD 51921) was characterized in isolated rat liver cells. Isolated hepatocytes take up EMD 51921 in a time-, concentration-, energy- and temperature-dependent manner. Transport of the peptide follows mixed-type kinetics. Diffusion occurs at a rate of 8.123 x 10(-6) cm/sec at 6 degrees C. For the saturable part of uptake, a Km of 2.0 microM and a Vmax of 160 pmol/mg per min were calculated. Various substrate analogues inhibit the uptake of EMD 51921. Absence of oxygen or decreased cellular ATP content (e.g., by metabolic inhibitors or xylulose) blocks hepatocellular uptake of EMD 51921. Temperatures above 20 degrees C accelerate the uptake. The activation energy was calculated to be 58.3 kJ/mol. The apparently active uptake of EMD 51921 was not sodium dependent. The membrane potential is a driving force for the accumulation of EMD 51921. Mutual competitive transport inhibition of EMD 51921, cholate and taurocholate is indicative of a common transport system. Benzamidotaurocholate and a cyclosomatostatin analog 008, not phalloidin and iodipamide, however, considerably decrease the uptake of EMD 51921. AS 30D ascites hepatoma cells, unable to accumulate bile acids and certain cyclopeptides, also fail to transport EMD 51921. BSP, a foreign substrate of the bilirubin carrier, noncompetitively inhibits the transport of EMD 51921. The inhibition of the uptake of EMD 51921 by rifampicin, a further substrate of the bilirubin carrier, is mixed: competitive at high EMD 51921 concentrations and uncompetitive at low EMD 51921 concentrations. The uptake of rifampicin into isolated rat liver cells, however, is not influenced by EMD 51921. Substrates of the transport systems for cations, amino acids, long chain fatty acids and hexoses did not influence the transport of EMD 51921.
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PMID:Hepatocellular uptake of peptides by bile acid transporters: relationship of carrier-mediated transport of linear peptides with renin-inhibiting activity to multispecific bile acid carriers. 200 17

Recent studies from this and other laboratories have resulted in the cloning and sequencing of hexokinases from a variety of tissues including yeast, human kidney, rat brain, rat liver, and mouse hepatoma. Significantly, studies on the hepatoma enzyme conducted in this laboratory (Arora, K.K., Fanciulli, M., and Pedersen, P.L. (1990) J. Biol. Chem. 265, 6481-6488) resulted also in its overexpression in Escherichia coli in active form. We have now used site-directed mutagenesis for the first time in studies of hexokinase to evaluate the role of amino acid residues predicted to interact with either glucose or ATP. Four amino acid residues (Ser-603, Asp-657, Glu-708, and Glu-742) believed to interact with glucose were mutated to alanine or glycine, whereas a lysine residue (Lys-558) thought to be directly involved in binding ATP was mutated to either methionine or arginine. Of all the mutations in residues believed to interact with glucose, the Asp-657----Ala mutation is the most profound, reducing the hexokinase activity to a level less than 1% of the wild type. The relative Vmax values for Ser-603----Ala, Glu-708----Ala, and Glu-742----Ala enzymes are 6, 10, and 6.5%, respectively, of the wild-type enzyme. Glu-708 and Glu-742 mutations increase the apparent Km for glucose 50- and 14-fold, respectively, while the Ser-603----Ala mutation decreases the apparent Km for glucose 5-fold. At the putative ATP binding site, the relative Vmax for Lys-558----Arg and Lys-558----Met enzymes are 70 and 29%, respectively, of the wild-type enzyme with no changes in the apparent Km for glucose. No changes were observed in the apparent Km for ATP with any mutation. These results support the view that all 4 residues predicted to interact with glucose from earlier x-ray studies may play a role in binding and/or catalysis. The Asp-657 and Ser-603 residues may be involved in both, while Glu-708 and Glu-742 clearly contribute to binding but are not essential for catalysis. In contrast, Lys-558 appears to be essential neither for binding nor catalysis.
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PMID:Glucose phosphorylation. Site-directed mutations which impair the catalytic function of hexokinase. 200 85

CMP-N-acetylneuraminic acid: glycoprotein sialyltransferase activities were assayed in microsomal fractions from chicken liver and hepatoma, induced by the leukosis virus strain Mc-29, using asialofetuin as the substrate acceptor of N-acetylneuraminic acid. The effect of some nucleotides and metal ions on the enzyme activity was investigated. Kinetic studies revealed that the Km values toward asialofetuin at a saturation concentrations of CMP-N-acetylneuraminic acid for both liver and hepatoma enzymes are very closed, while V value was lower for the tumor enzyme. The liver and hepatoma enzymes have no exogenous Mn cations requirement and are inhibited by CTP, CMP and ATP. CMP was shown to act as a competitive inhibitor with an apparent Ki of 0.24 mM for the liver and 0.16 mM for hepatoma enzyme, respectively.
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PMID:Partial characterization of microsomal sialyltransferase from chicken liver and hepatoma Mc-29: I. Effect of nucleotides and metal ions. 208 38

Starting from the assumption that tumor cells constantly experience transient ischemia and anoxia, and that this results in metabolic stress which is reflected above all, on the concentration of ATP, ADP and AMP, in other words, the adenine nucleotide pool (AdN), the aim of our research was to study the degradation and resynthesis kinetics of that pool on two types of malignant cells. All experiments were conducted in vitro with cells of the transplantable tumors of Ehrlich's ascitic carcinoma and the AS 30D hepatoma, and metabolite analyses were carried out enzymatically or by way of the HPLC chromatography method. It was found that immediately after the setting on of anoxia, there comes not only to a fall in ATP, but also to a fall in the complete adenine nucleotide pool for about 50%. The further maintenance of anaerobiosis does not have a significant influence on the AdN pool. The adenine nucleotide pool resynthesis is very rapid in the examined cells, and in the presence of glutamine and inosine, there comes to an occurrence of its significant growth. Evidence is given that the resynthesis in Ehrlich's ascitic carcinoma cells is made possible through the purine nucleotide cycle, which probably brings about the intensive glutamine oxidation and aspartate production, while in the AS 30D hepatoma cells it develops by means of adenosine kinase. The AS 30D hepatoma cells maintain a high ATP level in the absence of oxygen for a long time, provided that iodine-acetate is not added, which points to the fact that they have some other kind of energetic reserve aside from ATP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Kinetics of degradation and resynthesis of the adenine-nucleotide pool in tumor cells]. 209 81

The stimulation of 2-oxoglutarate and NAD(+)-isocitrate dehydrogenase by Ca2+ in mitochondria from normal tissues has been proposed to mediate partially the activation of oxidative energy metabolism elicited by physiological elevations in cytosolic Ca2+. This mode of regulation may also occur in tumor cells in which several aspects of mitochondrial metabolism are known to be altered. This study provides a comparison of the stimulation by submicromolar concentrations of Ca2+ on the rates of ATP-generating (state 3) respiration under physiologically realistic conditions by mitochondria isolated from normal rat liver and from highly malignant rat AS-30D ascites hepatoma cells. The K0.5 for activation of glutamate-dependent state 3 respiration by Ca2+ in the presence of ATP at 37 degrees C was determined to be 0.70 +/- 0.05 (S.E.) microM for hepatoma mitochondria and 0.90 +/- 0.03 microM for rat liver mitochondria. This activation was also reflected by a Ca2(+)-induced shift in the oxidation-reduction state of hepatoma mitochondrial pyridine nucleotides to a more reduced level and Ca2+ stimulation of 14CO2 production from [1-14C]glutamate. Whereas the Ca2+ sensitivity of state 3 respiration by hepatoma mitochondria can be explained by the activation of 2-oxoglutarate and possibly NAD(+)-isocitrate dehydrogenases, the Ca2+ sensitivity of liver mitochondrial respiration appears to be predominantly mediated by activation of electron flow through ubiquinone and Complex III of the electron transport chain, as indicated by the specificity of the effects of Ca2+ on respiration with different oxidizable substrates. Although rat liver and hepatoma mitochondria employ different modes of Ca2(+)-activated ATP generation, these results support the hypothesis that changes in cytosolic Ca2+ play a significant role in the potentiation of energy production in tumor, as well as normal tissue.
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PMID:Submicromolar Ca2+ regulates phosphorylating respiration by normal rat liver and AS-30D hepatoma mitochondria by different mechanisms. 211 59

Two novel lactogen receptor cDNA clones (2.1 and 1.2 kb) were isolated from a rat ovarian cDNA library. Nucleotide sequence of the 2.1 kb clone codes for a 610 aa receptor (nonglycosylated mol. wgt. 66,000 D) with an extracellular domain, a transmembrane region and an intracellular domain, and exhibited significant overall similarity with the rat liver receptor (310 aa) and both rabbit mammary and human hepatoma receptors (616 and 622 aa). However, the ovarian lactogen receptor sequence contains a unique cytoplasmic domain of 110 aa and consensus sequences for both a tyrosine phosphorylation site and an ATP/GTP type A binding site, and thus has potential for signal transduction and mitogenic activity. The 1.2 kb clone codes for a truncated binding form of 150 aa that is identical with the ovarian long form over only the first 130 residues, and lacks the transmembrane region. Differences between long and short forms of the ovarian lactogen receptors and the truncated liver species may result from alternative splicing. The prolactin holoreceptor gene(s) has the potential for producing several receptor subtypes that differ in tissue-specific expression, size, compartmentalization and mode of signal transduction, and may subserve the divergent functions of prolactin in its several target cells.
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PMID:Isolation and characterization of two novel rat ovarian lactogen receptor cDNA species. 215 91

The mechanism controlling insulin accumulation in nuclei of H35 hepatoma cells was investigated by incubating intact cells with 125I-labeled insulin in the presence or absence of agents that perturb different intracellular sites involved in the processing of ligand-receptor complexes. Purified nuclei were isolated, and nuclear-associated 125I-insulin was determined. Insulin accumulation in the nuclei was time and temperature dependent. Nuclear accumulation was linear and insulin-concentration dependent between 5 and 50 ng insulin/ml. However, pharmacological concentrations of insulin increased the amount of insulin translocated to the nucleus to a far greater extent than it increased total cell-associated insulin. Chloroquine, an acidotrophic agent, increased total cell-associated and intracellular insulin but had no effect on nuclear accumulation. The monovalent ionophores monensin and nigericin inhibited nuclear accumulation of insulin at low concentrations (0.5-5.0 microM) without affecting total insulin binding or intracellular accumulation. At 10 or 25 microM, monensin and nigericin also acted as acidotrophic agents and increased total insulin binding and intracellular accumulation but inhibited nuclear accumulation by a maximum of 50%. Low concentrations of monensin and nigericin were additive; maximal concentrations were not. A 23187 and valinomycin did not affect insulin binding or intracellular and nuclear accumulation of insulin. Neither depletion of ATP by sodium azide, 2,4-dinitrophenol, sodium cyanide, or oligomycin nor disruption of cytoskeletal elements by cytochalasin D or colchicine had any effect on nuclear accumulation of insulin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Partial characterization of mechanism of insulin accumulation in H35 hepatoma cell nuclei. 216 68

1. Calf thymus DNA-topoisomerase I has been isolated, in an improved preparation, nearly to SDS-PAGE homogeneity, as a single major protein (100 kDa). 2. In vitro labeling experiments, which employed the purified enzyme [gamma-32P]ATP and N II protein kinase, also showed that the calf thymus topoisomerase I became phosphorylated. 3. Phosphorylation was accompanied by an increase in topoisomerase I activity. 4. Phosphoaminoacid analysis indicated that only serine residues became phosphorylated. 5. Tryptic peptides mapping, by HV electrophoresis, identified five major [32P]peptides. This number is higher than that reported for topoisomerase I from Novikoff hepatoma cells. 6. Separation of each spot, by reverse phase HPLC, resulted in their elution at fractions 1, 2, 3, 4 and 5 with 9, 11, 16, 27 and 28% acetonitrile, respectively. 7. Isolated phosphopeptides will be subjected to sequencing, to DNA-binding and transcription regulation tests; then, it will be speculated whether type N II protein kinase may contribute to the physiological regulation of DNA topoisomerase I activity from calf thymus, as well.
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PMID:Phosphorylation sites for type N II protein kinase in DNA-topoisomerase I from calf thymus. 216 38

Highly purified GH-receptor preparations from 3T3-F442A fibroblasts, whose differentiation into adipocytes is promoted by GH, have been shown to contain a tyrosine kinase capable of phosphorylating GH receptors. In the current work, characteristics of the tyrosine kinase responsible for the in vitro phosphorylation of GH receptors from cultured 3T3-F442A fibroblasts were examined, and the presence of this GH receptor-associated tyrosine kinase activity was demonstrated in multiple cell types. GH-receptor complexes from GH-treated cells were partially purified by immunoprecipitation using anti-GH antibodies and then incubated as an immune complex with [gamma 32P] ATP. Incorporation of 32P into the GH receptor from 3T3-F442A fibroblasts was apparent within 1 min at 30 C after the addition of [gamma 32P]ATP (5-10 microM). A divalent cation was requisite for the phosphorylation; Mn2+ was significantly more effective than Mg2+ and Co2+; Ba2+, Ca2+, or Zn2+ had no effect. Excess unlabeled ATP, but not cytosine triphosphate, GTP, or uridine triphosphate, abolished 32P incorporation into the GH receptor and [gamma 32P]GTP could not replace [gamma 32P]ATP as a source of 32P. At 5.5 mM Mn2+, phosphorylation exhibited a biphasic dose response to ATP, with maximal phosphorylation occurring at a concentration of 10 microM ATP. At more physiological concentrations of ATP (1 mM), phosphorylation of the GH receptor was also stimulated by lower concentrations of Mn2+ (as low as 500 nM). Optimal reaction conditions determined for the phosphorylation reaction in 3T3-F442A fibroblasts were used to demonstrate incorporation of 32P from [gamma 32P]ATP into partially purified GH receptors from cultured human IM-9 lymphocytes, murine 3T3-F442A adipocytes, rat H-35 hepatoma cells, and freshly isolated rat adipocytes. The 32P was shown to be incorporated into tyrosyl residues in receptors from the two cell types tested (IM-9 lymphocytes and rat adipocytes). Cross-linked [125I] hGH-receptor complexes solubilized from the four cell types (IM-9 lymphocytes, 3T3-F442A adipocytes, H-35 hepatoma cells, and freshly isolated rat adipocytes) bound to and could be eluted from phosphotyrosyl antibody, suggesting that tyrosyl phosphorylation of GH receptors in all of these cells occurs in vivo. The presence of tyrosine kinase activity associated with GH receptors in multiple cell types from different species is consistent with tyrosine kinase activity playing a role in the actions of GH.
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PMID:Demonstration of growth hormone (GH) receptor-associated tyrosine kinase activity in multiple GH-responsive cell types. 217 17

Phenylarsine oxide (PhAsO), a dithiol reagent that blocks insulin stimulation of glucose transport in 3T3 L1 cells, also altered insulin stimulation of intracellular glucose metabolism in Zajdela Hepatoma cultured cells. PhAsO (2 microM) similarly inhibited the insulin-induced glycogen and lipid syntheses without modifying the basal level of these processes, cell viability or the ATP content. Prior incubation of the cells with PhAsO did not prevent insulin binding to the cells, or activation of the receptor tyrosine kinase, while it minimally (16%) altered receptor internalization. These results indicate that cellular dithiols located at a post-receptor step are involved in the transduction of the insulin signal to intracellular glucose metabolism.
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PMID:Evidence for the involvement of vicinal sulfhydryl groups in the insulin stimulation of intracellular glucose metabolism in Zajdela hepatoma cells. 218 43

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