UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cultured neuroblastoma cells (clone neuro-2a) were used to demonstrate the influence of an anesthetic on energy metabolism by acting on the intracellular distribution of hexokinase activity. First of all, there was to be shown that a relationship between the intracellular hexokinase distribution and energy metabolism actually exists in neuroblastoma cells. Since glucose-6-phosphate could be assumed to be the main regulator of this enzyme distribution, experimental conditions were chosen where the glucose-6-phosphate level was changed significantly. A decrease in the glucose-6-phosphate level in the cells was achieved by deprivation of glucose and oxygen for 30 min. Under these conditions the glucose-6-phosphate level and the soluble hexokinase activity decreased significantly. The effect was reversible when glucose and oxygen were again added to the incubation medium of the cells. On the other hand, the antimetabolite 6-aminonicotinamide produced an accumulation of glucose-6-phosphate which caused an increase in the soluble hexokinase activity. These results brought evidence for a correlation of intracellular hexokinase distribution and energy metabolism. When alpha-(+/-)-5-allyl-1-methyl-5-(1-methyl-2-pentinyl) barbituric acid (methohexital) was added to the incubation medium of the neuroblastoma cells, a dose-dependent increase in soluble hexokinase activity was measurable, whereas the glucose-6-phosphate level was decreased at least within a therapeutically relevant dosage range of the anesthetic. This effect was reversible when methohexital was washed out from the cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of methohexital on the relationship between hexokinase distribution and energy metabolism in neuroblastoma cells. 359 43

The consequence of blocking the de novo synthesis of ubiquinone (coenzyme Q) on mitochondrial ubiquinone content and respiratory function was studied in cultured C1300 (Neuro 2A) murine neuroblastoma cells. Mevinolin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, was used to suppress the synthesis of mevalonate, an essential precursor for the isoprenoid side chain of ubiquinone. At a concentration of 25 microM, mevinolin completely inhibited the incorporation of [3H]acetate into ubiquinone, isolated from cell extracts by two-dimensional thin-layer chromatography. Similar results were obtained when [14C]tyrosine was used as a precursor for the quinone ring. Through the use of reverse-phase thin-layer chromatography, it was established that the principal product of the ubiquinone pathway in murine neuroblastoma cells was ubiquinone-9. Inhibition of ubiquinone synthesis for 24h in cells cultured in the presence of 10% fetal calf serum (which contains 0.14 nmol of ubiquinone/ml of serum) resulted in a 40-57% decline in the concentration of ubiquinone in the mitochondria. However, the activities of succinate-cytochrome c reductase and succinate dehydrogenase in whole-cell homogenates or mitochondria were not inhibited. The state 3 and uncoupled rates of respiration, determined by polarographic measurements of oxygen consumption in homogenates and mitochondria, were elevated slightly in the mevinolin-treated cells. The data demonstrate that, although mevalonate synthesis is important for the maintenance of the intramitochondrial ubiquinone pool in cultured cells, major changes in the ubiquinone content of the mitochondria can occur in intact cells without perturbation of respiratory function. However, the coincidence of decreased mitochondrial ubiquinone concentration and the inhibition of cell cycling previously observed in mevinolin-treated cells (Maltese, W.A. (1984) Biochem. Biophys. Res. Commun. 120, 454-460) suggests that the availability of ubiquinone may play a role in the regulation of mitochondrial and cellular proliferation.
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PMID:Relation of mevalonate synthesis to mitochondrial ubiquinone content and respiratory function in cultured neuroblastoma cells. 385 88

The uptake of m-[125I]iodobenzylguanidine (mIBG), a compound structurally analogous to the antihypertensive drug guanethidine, was examined in various human cell lines. Of three neuroblastoma lines, SK-N-LO, IMR-32, and SK-N-SH, only the last showed specific uptake of the compound. In contrast, only a nonspecific uptake could be demonstrated for the other neuroblastoma lines, as well as for an osteogenic sarcoma line (SAOS-2) and a melanoma line (IgR 3). Based on analyses of uptake characteristics from Lineweaver-Burk plots it is evident that two different transport mechanisms are responsible for mIBG uptake into SK-N-SH cells: a nonspecific diffusion mechanism, and a specific, active uptake system. The latter was dramatically reduced at 4 degrees compared to 37 degrees, as well as in the presence of ouabain or the absence of oxygen. A competitive inhibition of the transport of mIBG by norepinephrine was observed. When drug-treated SK-N-SH cells were incubated in fresh medium, 20 to 30% of mIBG was still retained in the SK-N-SH cells 24 h after the end of incubation with mIBG, whereas no mIBG was detectable in SK-N-LO cells already after 1 h.
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PMID:Specific uptake of m-[125I]iodobenzylguanidine in the human neuroblastoma cell line SK-N-SH. 386 30

The resistance of cultured mouse neuroblastoma cells, primary cultures of rat cerebellar neurons, and rat brain astrocytes to a block of aerobic metabolism was studied. Parameters such as lactate production and ATP content were measured in the presence of antimycin A and under various conditions of glucose, oxygen, and serum supply. The following conclusions can be drawn: (1) All cell types studied were characterized by an active production of lactate; (2) Incubation of the various cell types in the absence of glucose at normal oxygen tension did not affect ATP levels; (3) Respiration blocked by antimycin led to a Pasteur effect; (4) Neuroblastoma cells, but not the other cell types, were fully resistant to inhibition of respiration provided that sufficient glucose was supplied; (5) In the absence of glucose no stores of energy or utilizable substrate were present in the cell types studied when respiration was blocked; (6) In the presence of fetal calf serum anoxic neurons showed irreversible signs of degeneration.
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PMID:Effects of antimycin, glucose deprivation, and serum on cultures of neurons, astrocytes, and neuroblastoma cells. 396 24

In order to address the question of whether small amounts of dissolved CO may inhibit cellular respiration, cultured mouse neuroblastoma cells and primary cultures of chick neurons, rat astrocytes and chick skeletal muscle and heart cells were exposed to CO containing buffer solutions in a closed perfusion system. Oxygen uptake was measured simultaneously with two polarographic oxygen electrodes as the difference in partial pressure of oxygen between the inlet and outlet of the perfusion chamber. After registration of the basal respiratory activity, perfusion solutions containing 5 ul 02/ml were bubbled with CO or N2 at a rate of 200 ml/min for 120 sec. By this procedure the partial pressure of 02 was decreased to reach a value of about 50% of the initial 02 content for both gases. Perfusion was then continued for 30 min at a rate of 0.5 ml/min. The respiratory activity of all the perfused cell cultures, except chick neurons, was found to be inhibited (13-29%) by perfusion solutions bubbled for 120 sec with CO as compared to N2 controls. Of the cells from the nervous system, astrocytes were more sensitive than neurons. Apparently, small amounts of dissolved CO can inhibit cellular respiration in the presence of a physiologically adequate amount of oxygen.
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PMID:Effects of dissolved carbon monoxide on the respiratory activity of perfused neuronal and muscle cell cultures. 405 20

Phagocyte activity in mice bearing neuroblastoma (NB) has been assayed using a chemiluminescence (CL) technique and proves to be dependent on the pretreatment of the NB cells used to induce the tumor. Indeed, original NB C 1300 tumor, which is maintained by serial in vivo passages induces highly triggered peritoneal phagocytes, producing large amounts of reactive oxygen intermediates (ROI). On the contrary, C 1300 cells cultured in vitro for a few passages and established lines as well as clones derived from the original tumor fail to induce this triggering. However, this decreased phagocyte stimulation can be regained at full extent after a few in vivo passages of the tumor cells.
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PMID:Chemiluminescence assay of phagocyte activity in mice bearing neuroblastoma: effect of in vitro culture of the tumor. 406 20

Effects of arachidonic acid on cellular metabolism, cation content, lipid peroxidation, sodium pump activities and release of labeled arachidonic acid were studied in C-6 glioma cells and N18TG2 neuroblastoma cells. Arachidonic acid caused a significant increase in intracellular sodium levels concomitant with a decrease in intracellular potassium in both cell lines. Both (Na+ + K+)-ATPase and p-nitrophenyl phosphatase of glioma cells were inhibited by arachidonic acid whereas only the p-nitrophenyl phosphatase of neuroblastoma cell was inactivated. Low concentrations of arachidonic acid stimulated lactic acid release whereas high concentrations had an opposite effect. In addition, the lipid peroxide content of glioma cells was increased abruptly by 50 microM arachidonic acid whereas only a slight increase of malondialdehyde was observed in neuroblastoma cells. When the cultured cells of both cell lines were incubated with exogenous labeled arachidonic acid, 78-95% of the label was incorporated into membrane phospholipids. Only a very small fraction of prostaglandin E2 and prostaglandin F2 alpha was synthesized. Exogenous arachidonic acid and free radicals generated with xanthine-xanthine oxidase caused a significant release of endogenous labeled arachidonic acid from cellular membrane phospholipids. These data further support our hypothesis that the arachidonic acid and its oxygen radical metabolites induce pathological alterations in membrane permeability and cellular volume.
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PMID:Alterations of membrane integrity and cellular constituents by arachidonic acid in neuroblastoma and glioma cells. 628 88

5-S-Cysteinyldopa, a melanin precursor, has been shown to possess selective toxicity to tumour cells in vitro and in vivo. The mechanism of cytotoxicity of the catechol was studied in comparison with L-dopa and 5-S-cysteaminyldopamine. Growth inhibition of human neuroblastoma cell line of YT-nu by 5-S-cysteinyldopa was completely depressed by addition of catalase. Superoxide dismutase and five drugs thought to scavenge hydroxyl radicals or quench singlet oxygen had little effect on the cytotoxicity. Hydrogen peroxide itself was also cytotoxic at low concns. These results indicated that hydrogen peroxide was a mediator of the cytotoxicity of 5-S-cysteinyldopa. It is suggested that reaction of the catechol with cellular superoxide radicals contributes to the production of hydrogen peroxide in addition to autoxidation. Catalase reduced the cytotoxicity of L-dopa by half, while it had no inhibitory effect on the strong cytotoxicity of 5-S-cysteaminyldopamine.
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PMID:The mechanism of toxicity of 5-S-cysteinyldopa to tumour cells. Hydrogen peroxide as a mediator of cytotoxicity. 640 13

The effect of dihydroergocristine on energy metabolism was studied in the isolated perfused rat brain affected by ischemia and in cultivated C-1300 neuroblastoma cells deprived of oxygen and glucose. Creatine phosphate, ATP, ADP, AMP, glucose, glucose-6-phosphate, fructose-6-phosphate, fructose-1,6-diphosphate, pyruvate, and lactate were measured enzymatically. After a perfusion period of 30 min, the cortex of the isolated perfused rat brain exhibited an energy state not different from that in vivo. Dihydroergocristine added to the perfusion medium (5 mumol/L) did not influence these substrate levels under normal perfusion conditions. However, this drug was able to retard the breakdown of high-energy phosphates during ischemia and to accelerate the restoration of the energy state during the postischemic reperfusion period. The perfusion rate was not changed by the drug, and therefore it was assumed that dihydroergocristine could act directly on cell metabolism. This view was supported by the results obtained from experiments using cultivated N-2a neuroblastoma cells. These cells were incubated in a buffered salt solution deprived of glucose and oxygen for 15 min. Under these conditions, dihydroergocristine (2 mumol/L) added to the incubation medium caused changes in the concentrations or the high-energy phosphates similar to those in the isolated brain preparation: It increased the ATP concentration and decreased the ADP concentration significantly.
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PMID:Effect of dihydroergocristine on energy metabolism studied in the isolated perfused rat brain affected by ischemia and in neuroblastoma cells deprived of oxygen and glucose. 643 25

The toxic effects of hyperbaric oxygen (HBO) on growth and survival of B104 rat neuroblastoma cells were investigated. Cells in log phase growth were incubated at 37 degrees C with 10 atm O2 for 1 to 4 h. After exposure to HBO, cells were monitored for their subsequent growth and survival. Two hours of exposure caused a slowing of growth, which returned to normal by the end of the 7th d of the postexposure period. Exposures to O2 of 3 h or longer caused a complete cessation of growth for 4 d after the exposure and very little or no recovery after this period. Increased hydrostatic pressure for 6 h using helium as the inert gas had no effect on growth. A colony formation assay was used to quantitate the degree of cell death induced by HBO. The resulting survival curve was of the exponential type with a broad shoulder between 0 to 2.5 h of exposure to 10 atm O2. The curve fell off sharply at 2.5 h with an exponential decrease in survival when the exposure to HBO was extended to 4 h. At 2 h about 50% of cells were killed, but at 4 h only 2% survived the treatment. These results show that the depression of the growth rate by HBO is related to the number of cells that are killed by the exposure. This system provides a model in which the molecular and cellular effects of HBO can be investigated.
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PMID:Inhibition of growth and decreased survival of B104 rat neuroblastoma cells after exposure to hyperbaric oxygen. 672 18

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