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)

We present an in vivo model for specific protection of normal hepatocytes from damage by the highly specific hepatotoxin galactosamine. The idea is based on the fact that normal, unlike malignant, hepatocytes possess unique cell-surface receptors that can bind and internalize galactose terminal (asialo)glycoproteins by receptor-mediated endocytosis. A targetable carrier-antagonist conjugate was formed by coupling asialofetuin to the galactosamine antagonist uridine monophosphate. Intravenous injection of the antagonist conjugate resulted in specific uptake by the liver. Rats treated with carrier-antagonist conjugate together with a toxic dose of galactosamine developed significantly less hepatotoxicity than did controls. We conclude that a galactosamine antagonist can be targeted to liver, resulting in specific protection of hepatocytes from galactosamine toxicity in vivo. Because hepatoma cells lack asialoglycoprotein receptor activity, this "targeted rescue" may be of value in the differential protection of normal cells in the treatment of hepatocellular carcinoma.
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PMID:Targeted protection of hepatocytes from galactosamine toxicity in vivo. 169 13

The present study provides evidence that green tea extract (GTE), consisting of polyphenol components, is a highly active nucleoside transport inhibitor. GTE markedly inhibited radiolabeled thymidine and uridine transport in mouse leukemia L1210 cells, with IC50 values of 3.2 and 8.0 mumol/L, respectively. GTE blocked the rescue effect of exogenous nucleosides and enhanced the cytotoxicity of AraC and MTX to L1210 cells and human hepatoma BEL-7402 cells. GTE markedly potentiated the inhibitory effect of AraC on leukemia L1210 and P388 in mice. These results indicate that GTE is potentially useful when combined with antimetabolites in cancer chemotherapy.
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PMID:Green tea extract inhibits nucleoside transport and potentiates the antitumor effect of antimetabolites. 178 98

A flow-through system was used to study the cellular pharmacokinetics of 5-fluorouracil (5-FU) in four human cell lines (squamous-cell carcinoma HEp-2, colon carcinoma WiDr, hepatoma Hep G2, and breast carcinoma MCF-7) as well as in the rat hepatoma H35 cell line and in freshly isolated rat hepatocytes. The system made it possible to restrict the decrease in the concentration of 5-FU in the medium, to keep the volume in which the metabolites accumulated relatively small, and to study the dynamics of a response during and after a change in the composition of the eluent. Clearance of 5-FU from the eluent was achieved predominantly (greater than 95%) by its catabolism to dihydrofluorouracil in the tumor cell lines and to 2-fluoro-beta-alanine in the hepatocytes. Not only rat hepatocytes but also HEp-2 cells showed relatively high clearance values. A concentration-dependent 5-FU elimination was observed, indicating saturation of 5-FU elimination according to Michaelis-Menten kinetics (Km 14-22 microM). The maximal velocity (Vmax) values ranged from 0.025 to 0.13 nmol 5-FU/10(6) cells per minute. For HEp-2 cells, high-concentration pulse injections of 5-FU, thymine, uridine, or uracil immediately led to a reduction in 5-FU conversion, followed by recovery within 5 min. The flow-through system proved to be adequate for the study of the non-linear pharmacokinetics of 5-FU in different intact cells and for the comparison of various manipulations of these pharmacokinetics.
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PMID:Measurement of in vitro cellular pharmacokinetics of 5-fluorouracil in human and rat cancer cell lines and rat hepatocytes using a flow-through system. 199 89

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

C-1027, a new macromolecular peptide antitumor antibiotic produced by a Streptomyces strain, was extremely cytotoxic to cultured cancer cells and markedly inhibited the growth of transplantable tumors in mice. As determined by tritium-labeled precursor-incorporation assay, C-1027 strongly inhibited DNA and RNA synthesis in hepatoma BEL-7402 cells without affecting protein synthesis. After incubation with the hepatoma cells for 4 h, IC50 values for [3H]-thymidine and [3H]-uridine incorporation were 0.00012 and 0.00032 microM, respectively. After 30 min incubation, C-1027 showed much stronger inhibition of [3H]-thymidine incorporation than did Adriamycin, mitomycin C or methotrexate, even at a concentration 10,000 times lower. The effect of C-1027 on pBR322 DNA suggested that the drug could cause single- or double-strand scission of DNA. As determined by flow cytometry, C-1027 delayed the progression of hepatoma cells through the S-phase and blocked the cells at G2+M. Cytological study showed that C-1027 caused a drastic reduction of the mitotic index within 1 h and that an overshot of the mitotic index occurred at 48 h. Our results indicate that C-1027 is an interesting compound with highly potent activity on cellular DNA.
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PMID:Mode of action of C-1027, a new macromolecular antitumor antibiotic with highly potent cytotoxicity, on human hepatoma BEL-7402 cells. 217 79

Peritoneal rat macrophages expressed solely an Na(+)-dependent, concentrative nucleoside transporter, which possesses a single Na(+)-binding site and transports purine nucleosides and uridine but not thymidine or deoxycytidine. The Michaelis-Menten constants for formycin B and Na+ were about 6 microns and 14 mM, respectively, and the estimated Na+:formycin B stoichiometry was 1:1. Rat macrophages accumulated 5 microM formycin B to a steady-state level exceeding that in the medium by about 500-fold during 60 min of incubation at 37 degrees C. Concentrative formycin B transport was resistant to inhibition by nitrobenzylthioinosine, lidoflazine, dilazep and nifedipine, but was slightly inhibited by high concentrations of dipyridamole (greater than 10 microM) and probenecid (greater than 100 microM). Mouse peritoneal macrophages and lines of mouse macrophages and normal rat kidney cells expressed Na(+)-dependent, active nucleoside transport but in addition significant Na(+)-independent, facilitated nucleoside transport. Facilitated nucleoside transport in these cells was sensitive to inhibition by nitrobenzylthioinosine, dilazep and dipyridamole. The presence of these inhibitors greatly enhanced the concentrative accumulation of formycin B by these cells by inhibiting the efflux via the facilitated transporter of the formycin B actively transported into the cells. Whereas rat macrophages lacked high-affinity nitrobenzylthioinosine-binding sites, mouse macrophages and normal rat kidney cells possessed about 10,000 such sites/cell. Rat and mouse erythrocytes, rat lymphocytes, and lines of Novikoff rat hepatoma cells, Chinese hamster ovary cells, Mus dunni cells and embryonic monkey kidney cells expressed only facilitated nucleoside transport.
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PMID:Characterization of Na(+)-dependent, active nucleoside transport in rat and mouse peritoneal macrophages, a mouse macrophage cell line and normal rat kidney cells. 222

A newly developed human hepatoma cell line, designated Hep G-2, expresses high-affinity insulin receptors meeting all the expected criteria for classic insulin receptors. 125I-insulin binding is time-dependent and temperature-dependent and unlabeled insulin competes for the labeled hormone with a half-maximal displacement of 1-3 ng/ml. This indicates a Kd of about 10(-10) M. Since Scatchard analysis of the binding data results in a curvilinear plot and unlabeled insulin accelerates the dissociation of bound hormone, these receptors exhibit the negative cooperative interactions characteristic of insulin receptors in many other cell and tissue types. Proinsulin and des(Ala, Asp)-insulin compete for 125I-insulin binding with 4% and 2%, respectively, of the potency of insulin. Anti-(insulin receptor) antibody competes fully for insulin binding. The two insulin-like growth factors, multiplication-stimulating activity and IGF-I are 2% as potent as insulin against the Hep G-2 insulin receptor. Furthermore, Hep G-2 cells respond to insulin in several bioassays. Glucose uptake, glycogen synthase, uridine incorporation into RNA and acetate incorporation into lipid are all stimulated to varying degrees by physiological concentrations of insulin. In addition, these cells 'down-regulate' their insulin receptor, internalize 125I-insulin and degrade insulin in a manner similar to freshly isolated rodent hepatocytes. This is the first available human liver cell line in permanent culture in which both insulin receptors and biological responses have been carefully examined.
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PMID:Insulin receptors and bioresponses in a human liver cell line (Hep G-2). 241 Feb 71

The influence of fractions of exogenous RNA, isolated from spleens of C3HA mice and of rats, both intact (control--cRNA) and immunized with homogenate of normal syngenic, allogenic and xenogenic tissues (immune--immRNA), on the cytotoxic properties of splenocytes of C3HA intact mice was compared in the in vitro cytotoxic experiments. The splenocytes treated with different RNA fractions were used as effector-cells. In vitro cultivated MGXXIIa cells of strain specific C3HA mice hepatoma, and K562 cells of human erythroleukemia, both labeled with 3H-uridine, served as target cells. Thus, it is only the cytoplasmic fraction of immRNA isolated from the spleens of rats immunized with tissue antigens of C3HA mice that induced a more pronounced stimulation of cytotoxic activity of splenocytes.
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PMID:[Cytotoxic properties of the splenocytes of C3HA mice following treatment with exogenous RNA]. 241 2

The combination of 3 types of antipyrimidines was studied in AS-30D hepatoma cells in suspension culture and in the rat in vivo. Cellular UTP and CTP pools can be depleted most effectively by combining an inhibitor of de novo UMP synthesis with sugar analogs diverting UMP to UDP-sugar analogs. The following UMP-trapping sugar analogs were employed: D-galactosamine, D-galactosone, D-glucosone, and D-glucosamine. These D-galactose and D-glucose analogs intensified the depletion of UTP and CTP pools induced by the following inhibitors of de novo UMP synthesis: acivicin, PALA, lapachol, pyrazofurin, and 6-azauridine. The sugar analogs, in the absence of inhibitors of the de novo pathway, enhanced the rate of de novo UMP synthesis several-fold, as indicated by incorporation of 14CO2 into intermediates and products of the pathway and by the expansion of the acid-soluble uracil nucleotide pool. Reduction of UTP and CTP contents to less than 5 and 15% of control, respectively, by D-galactosamine and PALA resulted in a decrease of the rate of RNA synthesis to 19% of control as calculated from the changes in specific activities of [14C]CTP and of [14C]cytidine in RNA after labeling with [14C]uridine. Hepatoma cells released uridine and cytidine into the extracellular fluid. This release was reduced to one third in UTP-deficient cells, indicating that pyrimidine nucleoside excretion is regulated by pyrimidine nucleotide levels, possibly by UTP and CTP regulation of uridine kinase. Determination of the rates of de novo pyrimidine synthesis, of the formation of RNA pyrimidines, and of pyrimidine nucleoside excretion indicates that de novo synthesis provides only about 67% of the pyrimidines required for the consuming processes. The difference, as well as the dilution of labeled pyrimidine nucleotide pools under conditions of a blocked de novo pathway, suggests a considerable salvage of pyrimidine nucleosides derived from RNA. This salvage of pyrimidines may be intracellular and/or by an excretion and re-uptake process. Depletion of UTP and CTP pools, induced in hepatoma cells by D-galactosamine and 6-azauridine, leads to growth inhibition in suspension culture; this inhibition becomes irreversible in an increasing percentage of cells, killing all cells after 20 hr of UTP deficiency. The enhanced uptake of 5-fluorouridine by UTP-deficient cells was associated with an increase of FUMP incorporation into RNA up to 4-fold and with stronger inhibition of cell growth.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Uridylate-trapping sugar analogs in combination with inhibitors of uridylate synthesis de novo and 5-fluorouridine. 241 94

Studies were made on the effects of inosine, guanosine 5'-monophosphate (GMP), cytidine, uridine, thymidine, and their mixture (4:4:4:3:1, OG-VI) on DNA and RNA syntheses in primary monolayer cultures of normal hepatocytes and cultures of hepatoma cells, AH130, to use these compounds for total parenteral nutrition. Addition of an appropriate amount of inosine, GMP, uridine, or thymidine to primary cultures of hepatocytes enhanced both DNA and RNA syntheses by the salvage and de novo pathways. Cytidine appeared to have lower optimal concentration for enhancing these pathways. The OG-VI mixture also enhanced the syntheses of DNA and RNA, but the composition of the mixture was not optimal. Additions of inosine, GMP, uridine, and thymidine to cultured hepatoma cells also enhanced their DNA and RNA syntheses, but the cells consumed more of the added nucleic acid compounds than hepatocytes did. Addition of cytidine had no effect on proliferation of the cells. The OG-VI mixture at relatively higher concentration inhibited the syntheses of DNA and RNA by hepatoma cells. Addition of high concentrations of nucleic acid compounds was found to suppress the proliferation of both hepatocytes and hepatoma cells. These results suggest that addition of optimal amounts of nucleic acid compounds such as nucleosides and nucleotides would enhance growth of hepatocytes, particularly during liver regeneration, but that they may also enhance proliferation of tumor cells in the liver.
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PMID:Effects of nucleosides and a nucleotide on DNA and RNA syntheses by the salvage and de novo pathway in primary monolayer cultures of hepatocytes and hepatoma cells. 246 17

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