Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of 5-fluorouridine (FUrd) cytotoxicity in Novikoff hepatoma cells appears to vary under different experimental conditions. Continuous exposure to 1 X 10(-7) M FUrd results in a simple thymineless death that can be prevented by the addition of 1 X 10(-4) M thymidine to the culture medium. In contrast, 1 X 10(-4) M thymidine does not prevent the growth inhibition caused by a 1-hr exposure to 1 X 10(-5) M FUrd, despite the fact that it does prevent the inhibition of DNA synthesis. Although it has no effect on the inhibition of DNA synthesis, 1 X 10(-4) M uridine prevents the growth inhibition caused by a 1-hr exposure to 1 X 10(-5) M FUrd. Since 1 X 10(-4) M uridine, but not 1 X 10(-4) M thymidine, prevents the inhibition of ribosomal RNA maturation caused by a 1-hr exposure to 1 X 10(-5) M FUrd, it seems likely that the effects of the analog on RNA metabolism contribute significantly to the cytotoxic activity of the analog in this specific experimental situation.
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PMID:The mechanism of 5-fluorouridine toxicity in Novikoff hepatoma cells. 18 24

1,4,5,6,8-Pentaazaacenaphthylene-3-amino-1,5-dihydro-5-methyl-(5-14C)-1-beta-D-ribofuranysly (NSC-154020), a tricyclic 7-deazapurine nucleoside (TCN), was rapidly incorporated into the acid-soluble pool by cultured Novikoff rat hepatoma cells, mouse L-cells, HeLa cells, and HEp-2 cells, but little incorporation into nucleic acids occurred. More than 90% of the intracellular radioactivity was associated with the monophosphate (MP) of the substrate concentration followed normal Michaelis-Menten kinetics. Comparison of the kinetic constants for the uptake of adenosine and the TCN and of the inhibition of their uptake by each other suggests that both were transported by the same system (Michaelis constant approximately 6-10 muM) and with about the same efficiency. The TCN was also phosphorylated in a cellfree extract containing adenosine kinase activity at about the same rate as was adenosine, but not further phosphorylation of the analogue MP occurred. No significant deamination or degradation of the adenosine analogue to its base and ribose-1-phosphate was observed. TCN inhibited the replication of all four types of cells propagated in suspension culture; however, Novikoff cells were several times more sensitive than were the other three cell types, despite the finding that the TCN-MP, probably the main toxic principle, accumulated to about the same concentration in cells of all four lines. Complete inhibition of replication of Novikoff cells were several times more sensitive than were the other three cell types, despite the finding that the TCN-MP, probably the main toxic principle, accumulated to about the same concentration in cells of all four lines. Complete inhibition of replication of Novikoff cells and cell death occurred at concentration as low as 15 muM TCN. At these concentrations, TCN, within 2 hours of its addition, completely inhibited the incorporation of [14C]formate int0 nucleotides and nucleic acids of Novikoff cells. An inhibition of the denovo synthesis of purine and pyrimidines, however, was not the only toxic effect of the TCN since high concentrations of uridine, adenine, guanine, and hypoxanthine, either alone or combined, failed to prevent the inhibition of cell replication by TCN. Also, between 1 and 3 hours of treatment, 70-80% of the Novikoff cells fragmented into four to eight vesicles per cell. These fragments were impermeable to trypan blue, still exhibited some metabolic activity such as the phosphorylation of AMP and TCN, but failed to replicate when the drug was removed. No similar fragmentation was observed with the other cell lines. Novikoff and L-cells rapidly released TCN-MP into the culture fluid. After 4 hours of incubation, 70-100% of the total radioactivity in the medium was associated with the MP. Only a little TCN-MP was released from HeLa and HEp-2 cells. A TCN-resistant mutant of Novikoff cells failed to phosphorylate the analogue and was deficient in adenosine kinase.
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PMID:Transport, phosphorylation, and toxicity of a tricyclic nucleoside in cultured Novikoff rat hepatoma cells and other cell lines and relase of its monophosphate by the cells. 18 99

We tested an experimental approach in which the specialized enzymatic pattern characteristic of the tissue of origin of a tumor might be exploited to target and enhance drug selectivity. In the present work, the D-galactosamine-induced depletion of uridine 5'-triphosphate (primarily a hepatic event) was employed to enhance the growth inhibition caused by 3-deazauridine. As predicted, the drug effect was most pronounced in the slower growing, well differentiated hepatoma lines where the activities of certain hepatic metabolic pathways and enzymes, though decreased, were still operative. The interactions of D-galactosamine and cytosine arabinoside with 3-deazauridine were examined in vitro in four liver tumor cell lines and two nonhepatic lines. The effects of D-galactosamine and 3-deazauridine on the growth of the Morris hepatoma cell lines 3924A, 8999S,AND 8999R were strongly synergistic; on the Novikoff hepatoma and the nonhepatic cell lines they were only additive. The combination of 3-deazauridine with cytosine arabinoside gave approximately additive growth inhibition with all cell types, without selective toxicity towards the hepatocellular lines. Results of growth-inhibition studies with the combination of D-galactosamine and cytosine arabinoside and with combinations of all three agents are also presented. These results are analyzed in the context of the regulation of hepatic pyrimidine nucleotide metabolism and our design of enzyme pattern directed drug selectivity.
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PMID:Enzyme pattern-directed chemotherapy: synergistic interaction of 3-deazauridine with D-galactosamine. 18 52

A selective deficiency of uridine triphosphate (UTP) was induced in AS-30D rat ascites hepatoma cells by the synergistic action of D-galactosamine and 6-azauridine. The resistance of these hepatoma cells to low concentrations of D-galactosamine (less than 2 mM) was due to their active de novo pyrimidine synthesis which compensated the trapping of uridylate in the form of uridine diphosphate-amino sugars derived from D-galactosamine. The additional blockage of de novo pyrimidine synthesis led to noncompensated uridylate trapping with a UTP content of less than 0.05 mmole/kg of cell wet weight as compared to the control level of 0.66 mmole/kg. The induction of UTP deficiency by incubating the cells with low concentrations of D-galactosamine and 6-azauridine (0.5 mM each) was not accompanied by significant changes in the content of adenine and guanine nucleotides, uridine diphosphate glucose, and uridine diphosphate galactose. The depletion of UTP pools could be reversed within 10 min by the addition of uridine; orotate or uracil were completely ineffective in these hepatoma cells. A UTP content in the range of 0.1 to 0.4 mmole/kg, induced by either 6-azauridine or D-galactosamine, was associated with a reversible depression of cell growth in suspension culture. A UTP content below 0.05 mmole/kg led to irreversible growth inhibition and to necrocytosis in culture, as well as to a loss of transplantability in vivo. Uridine reversal studies indicated that the percentage of cells able to resume growth in culture decreased with an increasing time period of UTP deficiency. The deficiency period required for irreparable or lethal damage in these hepatoma cells ranged from 3 to 20 hr. The principle of noncompensated uridylate trapping can be extended to other inhibitors of nucleotide synthesis combined with various nucleotide-trapping sugar analogs. Noncompensated nucleotide trapping may be useful for an induction of selective nucleotide deficiencies in tumor cells.
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PMID:Uridine triphosphate deficiency, growth inhibition, and death in ascites hepatoma cells induced by a combination of pyrimidine biosynthesis inhibition with uridylate trapping. 18 18

Dunning hepatoma has a low activity of deoxycytidylate deaminase, comparable to that of normal adult rat liver. This activity seems inconsistent with the rapid proliferation rate of the tumor. Factors which might affect the activity of deoxycytidylate deaminase in the Dunning hepatoma have been examined in it and compared to the Novikoff hepatoma which has high activity of this enzyme. The low activity in Dunning hepatoma does not appear to be the result of any inhibition or, possibly, proteolytic enzyme as judged by mixing experiments, nor does it appear to be due to in vivo differences in nucleotide concentrations especially deoxycytidine 5'-monophosphate, deoxycytidine 5'-triphosphate, or deoxyguanosine 5'-monophosphate which might either help stabilize the enzyme, allosterically increase its activity, or inhibit it. The Dunning hepatoma does not convert cytosine deoxyriboside to uridine deoxyriboside at a significant rate, and the formation of uridine deoxyriboside from deoxyuridine monophosphate is 1% or less during a 30-min incubation of high-speed supernatant fraction from the tumor in either the presence or absence of fluoride. It is concluded that the Dunning hepatoma probably has intrinsically low deoxycytidylate deaminase activity.
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PMID:Factors affecting deoxycytidylate deaminase activity in some transplantable rat hepatomas. 19 66

The reduction of uridine 5'-diphosphate (UDP) and uridine 5'-triphosphate (UTP) has been studied in normal adult rat liver, the Dunning hepatoma, and Morris 5123D and 7793 hepatomas. A new paper chromatographic method that separates and quantitates all the major products of the reduction and hydrolysis or other reactions of the substrate has been devised. All of the above tissues were able to reduce UDP and UTP at relatively slow rates ranging from 0.25 nmole of deoxycompound formed (deoxyuridine 5'-triphosphate) per mg protein per hr for liver to 3.5 nmoles deoxyuridine 5'-triphosphate for the Morris 7793 hepatoma when UTP was the substrate. In general, UTP was a better substrate than UDP. The method may also be used to measure cytidine 5'-diphosphate (CDP) reduction, and under the same conditions, the reduction of CDP proceeded at about 6 times the rate of UTP reduction in the Dunning hepatoma. Like CDP reduction, the reduction of UTP was strongly modulated by ATP. Reduction of UTP was insignificant with no ATP or 1.5 micronmoles ATP added to the reaction mixture and was maximal with 0.25 micronmole. The reduction of UTP was inhibited by deoxyuridine 5'-monophosphate, deoxythymidine 5'-triphosphate, deoxycytidine 5'-triphosphate, and deoxyribose 1'-phosphate. The effects of deoxyadenosine 5'-triphosphate varied, depending on its concentration in the reaction medium and whether UDP or UTP was a substrate. However, hydroxyurea did not inhibit reduction of UDP or UTP at concentrations that strongly inhibited CPD reduction. All of the tissues were able to hydrolyze [alpha-32P]deoxyuridine 5'-triphosphate readily to the diphosphate and monophosphate. It is suggested that the enzyme that reduces UTP or UDP may be different in these tissues from the enzyme that reduces CDP.
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PMID:The reduction of uridine 5'-diphosphate and uridine 5'-triphosphate in some transplantable rat hepatomas. 19 67

Inosine dialdehyde (INOX), the periodate oxidation product of inosine, inhibited the proliferation of various tumor cell lines in suspension culture in a concentration-dependent manner. A concentration of about 1 mM was required to completely inhibit the proliferation of Novikoff rat hepatoma and mouse L-cells, whereas about 0.1 mM completely inhibited the proliferation of L1210 and P388 mouse leukemia and Chinese hamster ovary cells. INOX inhibited in a similar time- and concentration-dependent manner the synthesis of protein, RNA, and DNA, as measured by the incorporation of labeled amino acid, uridine, and thymidine, into acid-insoluble material, without significantly affecting the incorporation of these precursors into the acid-soluble pool. Flow microfluorometric analyses showed that many of the INOX-treated cells became arrested in G2 + M. The results are consistent with the view that INOX affects multiple metabolic steps. The effects of INOX were quite different from those caused by typical inhibitors of ribonucleotide reductase, hydroxyurea, and 2,3-dihydro-1H-pyrazolo(2,3-a)imidazole, which very rapidly inhibited DNA synthesis and caused arrest of the cells in G1, with minimal effects on RNA and protein synthesis.
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PMID:Mechanism of action of inosine dialdehyde (NSC 118994) in the inhibition of proliferation of tumor cells in culture. 19 37

The standard analytical and preparative electrophoresis in polyacrylamide gel did not reveal qualitative differences in the fraction composition of c-RNA of the ascitic tumour cells (Zaidel hepatoma, Ehrlich carcinoma, NK/ly lymphoma) and normal liver cells. In vitro the tumour and normal cells efficiently incorporated the labeled uridine into the all main classes of c-RNA (4S, 18S, 28S, fractions above 28S), the process being more intensive in the tumour cells. The presence of tumours in the animal organism had a significant effect on RNA biosynthesis in the liver, the effect being dependent on the tumor nature. Lucantone (miracyl D) had practically no effect in vitro on the quantitative content of the summation c-RNA and its fractions in all cells studied. However, it markedly inhibited the metabolism of the main fractions of c-RNA in the cells of Zaidel hepatoma and Ehrlich carcinoma. The effect of lucatone in the cells of NK/ly lymphoma was contrary.
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PMID:[Molecular mechanism of the action of lucanthone on tumor and normal cells]. 19 13

Uridine kinase, the rate-limiting enzyme in the activation (phosphorylation) of uridine and the corresponding chemotherapeutic analogues, is present as two isoenzymes localized exclusively in the cytosol of rapidly growing neoplasms, including the S-37 sarcoma, EL-4 leukaemia, HeLa cells (a human carcinoma) and the Novikoff hepatoma. The activities of the isolated isoenzymes are markedly decreased when the concentrations of ATP, phosphate or Mg2+ that are optimum in vitro are replaced by concentrations of ATP, phosphate or Mg2+ that are optimum in vitro are replaced by concentrations approximating to those found in vivo. Further, comparisons of the Km values of isolated uridine kinases with those for cellular uptake of pyrimidine nucleosides and their rate of intracellular phosphorylation suggest that nucleoside-transport systems play a rate-limiting role in nucleoside analogue activation and consequently that it is impossible to estimate the Km of uridine kinase in the intact cell. During the development of tumour-cell resistance to 5-fluorouracil or 5-fluorouridine in vivo there was an early differential increase in the activity of a low-affinity (high-Km) uridine kinase isoenzyme, as measured in cell extracts, and a 7-fold increase in the Km values for the uptake of both uridine and 5-fluorouridine into the intact resistant cells.
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PMID:Uridine kinase activities and pyrimidine nucleoside phosphorylation in fluoropyrimidine-sensitive and -resistant cell lines of the Novikoff hepatoma. 19 85

In experiments in vitro on ascites tumor cells of Ehrlich carcinoma and Zajdela hepatoma the author studied the effect of 2,4-dinitrophenol (an agent dissociating respiration from phosphorylation) on respiration, glycolysis, resynthesis of ATP and synthesis of basic fractions of cytoplasmic RNA by the incorporation of labeled 3N-uridine precursor. It was shown that under optimum conditions of tumor cell incubation (phosphate-rich Igle medium) in the presence of 6.10(-4) M DNP a sharp activation of anaerobic glycosis is observed as well as increased O2 absorption and high level of ATP. Blocked phosphorylation associated with respiration renders no appreciable effect on the biosynthesis of basic fractions (4 S, 18 S, 28 S) of cytoplasmic RNA.
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PMID:[RNA biosynthesis in the ascitic cells of Ehrlich's carcinoma and Zajdela's hepatoma under conditions of blocked oxidative phosphorylation]. 19 51


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