UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated whether cell surface changes associated with growth control and malignant transformation are linked to the cell cycle. Chicken embryo cells synchronized by double thymidine block were examined for cell-cycle-dependent alterations in membrane function (measured by transport of 2-deoxyglucose, uridine, thymidine, and mannitol), in cell surface morphology (examined by scanning electron microscopy), and in the ability of tumor virus gene expression to induce a transformation-specific change in membrane function. We reach the following conclusions: (a) The high rate of 2-deoxyglucose transport seen in transformed cells and the low rates of 2-deoxyglucose and uridine transport characteristic of density-inhibited cells do not occur in normal growing cells as they traverse the cell cycle. (b) Although there are cell cycle-dependent changes in surface morphology, they are not reflected in corresponding changes in membrane function. (c) Tumor virus gene expression can alter cell membrane function at any stage in the cell cycle and without progression through the cell cycle.
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PMID:Cell surface changes and Rous sarcoma virus gene expression in synchronized cells. 16 32

A variety of compounds were assessed for their ability to induce morphological differentiation and to affect the synthesis of RNA in uncloned mouse neuroblastoma cells in culture. The stimulation of morphological differentiation in uncloned cells after exposure for 48 hours to concentrations of 3 times 10-7 to 3 times 10-4 M papavarine or 10-9 to 10-3 M dibutyryl adenosine 3':5'-monophosphate (dibutyryl-cAMP) was associated, in part, with a concentration-dependent decrease in incorporation of [5-3H]uridine into ribosomal RNA (rRNA) and heterogeneous RNA (HnRNA). The latter effect on cellular RNA produced by papavarine occurred within 1 hour after its addition to the medium and was associated with impaired uptake of radioactive precursor into uridine nucleotides and reduction in the intracellular concentration of uridine 5'-triphosphate (UTP). Dibutytyl-cAMP produced a decreased in the specific radioactivity of UTP without affecting the concentration of UTP in the tumor cells. The effects of papavarine and dibutyryl-cAMP could be distinguished further by the 50% reduction of acetylcholinesterase activity produced by papavarine, but not by dibutyryl-cAMP. Papavarine did not, however, reduce the cellular level of the soluble enzyme, adenine phosphoribosyltransferase. Sodium butyrate, while producing morphological effects similar to those of papavarine and dibutyryl-cAMP at equimolar concentrations, caused no significant changes in the incorporation of [5-3H]uridine into rRNA and HnRNA; however, acetylcholinesterase activity was stimulated 6- to 7-fold above control levels. In contrast to the other differentiating agents examined, addition of 10-9 to 3 times 10-4 M concentrations of cAMP to the tissue culture medium enhanced morphological differentiation of nueroblastoma cells, and caused a 10- to 20-fold stimulation of the incorporation of [5-3H]uridine into rRNA and HnRNA at concentrations of 10-4 M and higher. This effect observed only at high concentrations of cyclic nucleotide was accompanied by an elevation in the specific acitivty of UTP, These studies suggest that the morphological response of neuroblastoma cells is not necessarily associated with concomitant alterations in the synthesis of RNA with agents other than cAMP. Observed changes in incorporation of [5-3H]uridine into RNA appear in most instances to be due to alterations in the uptake of uridine, and in the pool size and specific radioactivity of UTP.
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PMID:Effects of adenosine 3':5'-monophosphate and related agents on ribonucleic acid synthesis and morphological differentiation in mouse neuroblastoma cells in culture. 16 51

Non-producer (NP) human cells induced by the Kirsten sarcoma virus were characterized. These morphologically altered NP cells produced neither infectious virus nor complement-fixing antigens of the murine sarcoma-leukemia virus complex. The NP cells did not release RNA-dependent DNA polymerase and type-C virus particles with a density of approximately 1.15 g/ml in sucrose gradients by 3H-uridine labelling. The NP cells produced tumors when transplanted subcutaneously into athymic nude mice. The tumor cells re-established in culture resembled the orginal NP cells, were confirmed as human cells by karyological analysis and were also found to be "non-producer". The sarcoma virus genome in NP cells could be rescued not only by co-cultivation with "helper virus"-releasing cells but also by superinfection with helper type-C viruses. Murine (Rauscher, Ki-MuLV, AT-124 and two other xenotropic viruses), feline, RD-114 and Simian (woolly monkey and baboon) type-C viruses possessed the ability to rescue the sarcoma genome from NP cells but not AKR leukemia virus. In addition, the feline leukemia virus titer obtained by the rescuing technique in NP cells was the same as those obtained in feline embryo and NP cells by CF induction assay.
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PMID:Characterization of non-producer human cells induced by Kirsten sarcoma virus. 17 Dec 29

Deazauridine inhibited growth of tumor cells in culture and in culture and in vivo; this agent was significantly more effective against L1210/AraC than against the parent sensitive line. Inhibition of growth of tumor cells in culture was prevented by uridine and cytidine and was partially alleviated by deoxycytidine, but not by deoxyuridine or thymidine. DeazaUR inhibited nucleic acid synthesis but not protein synthesis in tumor cells in culture; deoxycytidine alleviated inhibition of nucleic acid synthesis. The labeling of pyrimidine ribonucleotides by 6-14C-orotic acid was inhbited by deazaUR. DeazaUR treatment of tumor cells in culture resulted in increased uptake of cytidine-3H into RNA, whereas uridine-3H uptake into RNA was inhibited. Labelling of DNA by uridine-3H/ and cytidine-H was inhibited by deazaUR. Pools of CMP, CDP, and CTP decreased markedly during deazaUR treatment of L1210 cells in culture and in vivo. These observations in growing cells pointed to deazaUR inhibition of the synthesis of cytidylic acid. Deazauridine 5'-triphosphate was found to be an inhibitor of the synthesis of CTP from UTP catalyzed by enzyme preparations from L1210 cells. This observation is in agreement with those of McPartland et al.19 that deazaUTP inhibited CTP synthetase purified from calf liver. Deazauridine treatment of L1210 cells in culture stimulated the uptake of deoxycytidine-3H into DNA while inhibiting the uptake of 3H-labeled deoxyuridine, thymidine, deoxyadenosine, and deoxyguanosine. Intracellular pools of dCTP were decreased by deazauridine treatment in L1210 cells in culture and in vivo. Deazauridine 5'-diphosphate inhibited the enzymatic reduction of pyrimidine ribonucleoside 5'-diphosphates to the corresponding deoxyribonucleotides. These results are consistent with the view that deazauridine, after its uptake and intracellular phosphorylation, strongly inhibits the formation of CTP. This is considered to be the primary metabolic effect of the analog. A secondary effect appears to be an inhibition of dCTP formation.
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PMID:The mechanism of action of 3-deazauridine in tumor cells sensitive and resistant to arabinosylcytosine. 17 97

Pyrimidine nucleoside monophosphate kinase [deoxycytidine monophosphate:adenosine triphosphate (dCMP:ATP) phosphotransferase. EC 2.7.4.14] has been purified from rat Novikoff ascites hepatoma and rat liver, each to a single major band appearing on sodium dodecyl sulfate polyacrylamide gel electrophoresis. Differences exist in regard to efficiency and regulation of enzymatic activities. The Km values of the tumor kinase for cytidine monophosphate (CMP) (0.0053 +/- 0.0008 MM) and dCMP (0.715 +/- 0.068 MM) are approximately one-fourth the Km values of the rat liver kinase, for CMP (0.030 +/- 0.007 MM) and dCMP (2.77 +/- 0.39 MM). The tumor dCMP kinase exhibits a lower Km for ATP (0.134 +/- 0.008 MM) than the rat liver kinase (0.68 +/- 0.09 mM). Moreover, the dCMP:CMP kinase activity ratio for the tumor enzyme is 1.12, while that for the rat liver enzyme is 0.45. The uridine monophosphate:CMP kinase activity ratio for the tumor enzyme is 1.93, while that for the rat liver enzyme is 2.68. Lower concentrations of dithiothreitol are required for 50% reactivation of the tumor dCMP kinase (1.00 mM) and CMP kinase (0.10 mM) than rat liver dCMP kinase (2.20 mM) and CMP kinase (0.57 mM). Thus, the kinase from Novikoff hepatoma exhibits properties of increased efficiency and relaxed regulation of activity which render it more suitable for a tumor, in which active DNA synthesis is ongoing.
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PMID:Differences between pyrimidine nucleoside monophosphate kinase from rat Novikoff ascites hepatoma and rat liver. 17 2

The bioreductive alkylating agent, 2,3-bis(chloromethyl)-1,4-napthoquinone (CMNQ), has been shown to inhibit the growth of Sarcoma 180 ascites cells in vivo. Evidence for the reductive activation of this agent via the mitochondrial respiratory chain was provided by CMNQ-induced oxidation of reduced nicotinamide adenine dinucleotide; the interaction was shown to be on the substrate side of the site of rotenone inhibition. Consistent with the concept that reduction of CMNQ to a hydroquinone results in the generation of an alkylating species (i.e., a quinone methide) was the finding that radioactivity from [14C]CMNQ present in Sarcoma 180 ascites cells was associated with DNA, RNA, and protein for a period of up to 72 hr after exposure to tumor-bearing animals to this agent. Inhibition of the incorporation of [3H]thymidine, [3H]uridine, and [14C]leucine into DNA, RNA, and protein, respectively, of Sarcoma 180 ascites cells was produced by this agent, with DNA biosynthesis being the most susceptible. The inhibitory effect of CMNQ on the formation of DNA was, at least in part, the result of a prevention of the conversion of thymidine to its nucleotide forms. This action was due to (a) a drug-induced decrease in intracellular levels of adenosine 5'-triphosphate, presumably resulting from uncoupling of oxidative phosphorylation by CMNQ; and (b) a partial loss of thymidine kinase activity in Sarcoma 180 cells, which did not appear to be due to direct inhibition of the enzyme by the drug. Although the primary event produced by CMNQ at the mitochondrial level appeared to be release of respiratory control, other effects of mitochondrial metabolism occurred. These included inhibition of reduced nicotinamide adenine dinucleotide and succinoxidase activities, as previously demonstrated, and mitochondrial swelling, which suggested interaction of CMNQ with the inner mitochondrial membrane. These findings indicate a variety of biochemical lesions are associated with the antineoplastic activity of CMNQ and demonstrate a relationship between the effects of this drug on mitochondrial respiratory control and DNA biosynthesis.
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PMID:Mode of action of the bioreductive alkylating agent, 2,3-bis(chloromethyl)-1,4-naphthoquinone. 18 23

When SV40 tumor cells (F5-1) in culture were treated with dibutyryl cyclic adenylic acid (DbcAMP),marked alterations occurred in their growth and morphology. Additionally, the incorporation or uptake of labeled thymidine, uridine, phenylalanine, and choline were reduced by this treatment. These modifications with DbcAMP exposure produced conditions simulating those of a contact-inhibited state. The immunization of hamsters with X-irradiated tumor cells previously cultured in the presence of DbcAMP indicated that the tumor-specific transplantation antigens and/or fetal antigens were altered during short-term expsoure to DbcAMP. Further examination of membrane antigens of SV40 tumor cells using the isotopic antiglobulin technique demonstrated a significant reduction in the tumor membrane antigen on cells cultured with DbcAMP.
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PMID:The effect of exposure to dibutyryl cyclic adenylic acid on the membrane antigenicity of SV40 tumor cells. 18 50

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

The removal of serum from the medium of uninfected fibroblasts decreased the rate of uptake of uridine, 2-deoxyglucose, alpha-aminoisobutyrate and thymidine. Its subsequent addition rapidly and reversibly stimulated the uptake of all the nutrients but thymidine and this response was not inhibited by treatment of the cells with cycloheximide. The cycloheximide insensitive, rapid increase in the rate of transport has been designated post-translational control. The nutrient transport systems in chick embryo fibroblasts transformed in vitro with avian sarcoma viruses and virus-induced cultured chicken tumor cells do not respond to serum removal or addition. Two possible levels for the control of nutrient transport, i.e., mitogen receptor occupancy and mitrogen-induced activation of the transport system, are presented to explain these observations.
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PMID:Loss of the post-translational control of nutrient transport in vitro and in vivo virus-transformed chicken cells. 18 42

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

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