Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

High-resolution 31P nuclear magnetic resonance spectra at 145.7 MHz are reported for intact Ehrlich ascites tumor cells and their perchloric acid extracts. In the extracts it was possible to assign resonances to fructose 1,6-bisphosphates, dihydroxyacetone phosphate, ATP, ADP, AMP, Pi, NAD+, phosphorylcholine, glycero-3-phosphorylcholine, glycero-3-phosphorylethanolamine, and glyceraldehyde 3-phosphate from their chemical shifts, pH behavior, and spin couplings. All but glyceraldehyde 3-phosphate were observed and assigned in the intact cells. It was possible to show that the hydrolysis of fructose 1,6-bisphosphate to dihydroxyacetone phosphate and glyceraldehyde 3-phosphate is in equilibrium, that the dihydroxyacetone phosphate leads to glyceraldehyde 3-phosphate reaction is not, and that in the intact cell without added oxygen or glucose the reaction 2ADP in equilibrium ATP + AMP is in equilibrium. From the known pH dependence of the Pi resonance it was possible to show that during aerobic or anerobic glycolysis the difference between intracellular and extracellular pH values was less than 0.2 pH units. Upon oxygenation the ATP concentration increased while the ADP concentration fell. Introducing deoxyglucose depleted the ATP and resulted in an AMP signal and one from deoxyglucose 6-phosphate, which is transported and phosphorylated but not catabolized.
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PMID:31P nuclear magnetic resonance studies of Ehrlich ascites tumor cells. 1 72

(1) The mitochondrial ATPase (EC 3.6.1.3) Ehrlich ascites cell mitochondria, was inhibited by D-glucose under physiological concentrations of ATP. The generation of ADP by the mitochondrial bound hexokinase, seems to be the reason for the D-glucose inhibitory effect. Reversal of the inhibitory effect of ADP on Ehrlich ascites cell mitochondria ATPase by an ATP-regenerating system was achieved. (2) Dissociation of mitochondrial bound hexokinase from the mitochondria eliminated the inhibitory effect of D-glucose. Rebinding of the hexokinase to the mitochondria regenerated the D-glucose inhibitory effect on Ehrlich ascites cell mitochondria ATPase. (3) Bioflavonoids such as quercetin inhibit the mitochondrial hexokinase activity, but do not change the mitochondrial ATPase activity of isolated Ehrlich ascites tumor cell mitochondria. (4) The inhibitory effect of bioflavonoids on mitochondrial bound hexokinase activity is shown to be dissociable from the ascites tumor cell mitochondria and seems to be associated with regulatory rather than catalitic sites of the enzyme.
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PMID:Bioflavonoid regulation of ATPase and hexokinase activity in Ehrlich ascites cell mitochondria. 1 95

Certain bioflavonoids inhibit the glycolysis of variety of tumor cells by interfering with the generation of adenosine diphosphate and inorganic phosphate which are required for glycolysis. Tetra- and pentahydroxy flavones with hydroxyl groups as 3, 3', 4', 5, and 7 (e.g., quercetin) are the most active. They inhibit the activity of isolated Na+-K+-adenosinetriphosphatase of the plasma membrane and of mitochondrial adenosinetriphosphatase, but under appropriate conditions do not interfere with the ion transport increase the the translocation efficiency of the ion pump. It was shown that in several tumor cells loosely coupled ion pumps are responsible for the high rate of aerobic glycolysis, the effect of quercetin on the growth of several cell lines was examined. Since bicarbonate and serum albumin were found to counteract the effect of quercetin, the cells were grown in tissue cultures at low concentrations of these compounds. Pronounced inhibition of growth was observed at 5 to 20 mug of quercetin per ml of growth medium.
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PMID:The effect of flavonoids on aerobic glycolysis and growth of tumor cells. 12 7

The inhibition of the proliferation of hyperdiploid Ehrlich ascites tumor cells in suspension cultures by amobarbital is coupled to an increased glycolytic activity as shown by lactic acid production and glucose consumption; higher concentrations of amobarbital than 1 mM enhance the ATP/ADP ratio of the total cell. The actual activity of pyruvate dehydrogenase of intact cells is completely inhibited in the presence of 2 mM amobarbital as was shown by the 14CO2 evolution from [114C]pyruvate or the incorporation of 14CO2 into the total lipid fraction of the cells from [U-14C]lactate. The pyruvate dehydrogenase complex from Ehrlich ascites tumor cells is completely inhibited by 1 mM amobarbital in vitro. The activity of alpha-oxoglutarate dehydrogenase is inhibited by amobarbital, too, as well as shown by measuring the 14CO2 evolution from [1-14C]glutamate with intact cells. It is suggested that the inhibition of pyruvate dehydrogenase in the presence of amobarbital is the result of a direct action on the enzyme as well as the consequence of a change in the cellular redox state or its energy charge.
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PMID:Multiple effects of amobarbital on Ehrlich ascites tumor cells. Inhibition of pyruvate dehydrogenase. 14 57

Mitochondria from a rat mammary tumor (R3230AC) have been compared with mitochondria from pregnant and lactating rat mammary glands, with particular attention paid to inner membrane enzymes and Transport proteins. In the tumor the mitochondrial adenosine triphosphatase was not activated by 2,4-dinitrophenol, in contrast to the mammary mitochondria from lactating or pregnant rats. Translocation of adenosine diphosphate across the inner membrane was found to be more rapid in the tumor by virtue of lovered Km adenosine diphosphate and raised Vmax. Transport of phosphate and dicarboxylic acids occurred at similar rates in all three types of mitochondria. The inner membrane proteins were also examined directly by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and some differences are noted. These results, although they indicate subtle differences between the inner mitochondrial membranes of tumor as compared with those of pregnant or lactating rat mammary glands, cannot form the basis of an explanation for enhanced glucose utilization and aerobic lactic acid production in this tumor.
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PMID:A comparative study of inner membrane enzymes and transport systems in mitochondria from R3230AC mammary tumor and normal rat mammary gland. 16 45

The incorporation of [3H]adenosine, [3H]adenine, and [3H]hypoxanthine into adenine nucleotides of nude (athymic) mouse liver and human hepatoma grown subcutaneously in nude mice was studied. 3H and 32P radioactive labeling in vivo of acid-soluble nucleotides followed by chromatographic procedures indicated that, in contrast to [3H]adenine and [3H]hypoxanthine, [3H]adenosine is preferentially incorporated into ATP in comparison with its incorporation into AMP and ADP. This phenomenon, as well as complementing the recently reported 3-fold increase in total cellular ATP upon treatmen- with 0.5-1.0 mM concentrations of adenosine, indicates the formation from adenosine of compartmentalized ATP that is not produced from either adenine or hypoxanthine. The observed effect is of larger magnitude in the growth-arrested normal liver than in the actively growing tumor.
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PMID:Incorporation of adenosine into ATP: formation of compartmentalized ATP. 18 61

Mitochondria were isolated from Morris hepatomas with rapid (types 3683, 7777, and 3924A) and intermediate (types 5123D and 7800) growth rates, using proteolytic digestion of minced tumor tissue to release the particles. Mitochondria isolated by the same procedure from rat liver were employed as controls. All the hepatoma mitochondria were capable of coupled respiration with normal phosphorylation yields (ADP/O) and respiratory control ratios ranging from 2 to considerably more than 10. Particles from hepatomas 7777 and 7800 exhibited properties closest to liver mitochondria, while those from hepatomas 3683 and 3924A showed the greatest difference. All the hepatoma mitochondria were capable of oxidizing succinate, 3-hydroxybutyrate and monoamines. However, the oxidation rates of the latter two substrates by mitochondria from hepatomas 3683 and 3924A were only a fraction of the control rates. These differences appeared to be due, at least in part, to the structural instability of the isolated hepatoma mitochondria. In contrast to the reports of others, all hepatoma mitochondria exhibited considerable stimulation of ATPase activity by uncouplers. Maximal stimulation of ATPase activity by representatives of three classes of uncouplers was in all instances comparable to the values obtained for rat liver mitochondria.
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PMID:Oxidative phosphorylation properties of mitochondria isolated from transplanted hepatoma. 18 16

Steroidogenesis by Y-1 adrenal tumor cells in culture is stimulated by ATP, adenyl-5'-yl imidodiphosphate (App(NH)), adenosine 5'(beta, alpha-methylene)triphosphate (App(CH2)p), ADP, AMP, NAD, FAD, and adenosine but not by adenine or other nucleoside triphosphates. ATP, App(NH)p, App(CH2)p, and adenosine are active in the micromolar range. Like adrenocorticotropic hormone (ACTH), the onset of stimulation is immediate and occurs to the same extent. Also active are 2'- and 5'-deoxyadenosine and 2-chloroadenosine whereas adenine xyloside, L-riboside, or arabinoside have very low activity. Stimulation is accompanied by rounding of the cells. Dipyridamole, an inhibitor of adenosine transport, increased the response to low concentrations of adenosine, suggesting that adenosine acts externally. Stimulation of steroidogenesis by adenosine or phosphorylated adenosine compounds fails to occur in the presence of crystalline adenosine deaminase, and the effect of the enzyme on adenosine, ATP, or NAD stimulation is reversed by the competitive inhibitor erythro-9-[3-(nonane-2-ol)]adenine. This suggests that the enzyme acts specifically on adenosine and a requirement for the conversion of the above compounds to adenosine seems probable. The inhibition of cAMP effects by adenosine deaminase suggests that some of its effects are also mediated by conversion to adenosine. Similar stimulation is seen in I-10 Leydig tumor cells, but an ACTH-resistant mutant of Y-1 cells, called OS-3, is relatively resistant to adenosine. Adenosine and 2-chloroadenosine stimulate adenylate cyclase in membranes from Y-1 and I-10 cells at concentrations slightly greater than are effective for steroidogenesis. Other nucleosides are ineffective. Like the NH2-terminal 24 residues of adrenocorticotropic hormone (1-24 ACTH), the adenosine effect in Y-1 membranes is rapid and is on the Vmax intercept (versus ATP) and not on the Km. In contrast to steroidogenesis, adenosine is only a partial agonist for adenylate cyclase. It effect occurs in the presence of ITP, GTP, or guanyl-5'-yl imidodiphosphate (Gpp(NH)p). Theophylline inhibits adenosine-stimulated steroidogenesis. Inhibition of adenylate cyclase occurs in the same concentration range but is of the mixed type.
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PMID:Activation of steroidogenesis and adenylate cyclase by adenosine in adrenal and Leydig tumor cells. 18 24

The authors report the results of separate determination of the concentration of free adenine nucleotides (ATP, ADP, AMP) in tumors, intact animals liver, and tumor-bearing animals liver. In Zajdela ascites hepatoma, ascites tumor NKly and solid lymphosarcoma, solid hepatomas 46 and 22 A the amount of ATP and ADP was found to be markedly reduced compared with their content in the liver. The ratio ATP/ADP is increased in ascites cells of tumor NKly, Zaidela hepatoma and lymphosarcoma and is decreased in solid hepatoma 46 and 22 A. Cell energy potential, calculated on the basis of ATP ratio to a sum of adenine-nucleotides, is also increased in ascites cells of tumor NKly, Zaidela hepatoma and is diminished or remains unchanged in hepatoma 46 or 22A. Cell energy charge is increased in tumor NKly, Zajdela hepatoma, lymphosarcoma and is decreased in solid hepatoma 46 and 22A.
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PMID:[Content of the components of the adenylic acid system in solid and ascitic tumors in the liver of experimental animals]. 19 12

Our previous reports have presented evidence suggesting the existence in tumor cells of a second control site of glycolysis of pyruvate kinase as a competition for adenosine diphosphate between this enzyme and mitochondria, which is responsible for the Crabtree effect. Now, by using cells partially permeabilized to nucleotides and phosphorylated substrates, we provide evidence supporting the existence in hepatocytes of a partial control by adenosine triphosphate at phosphofructokinase, which is followed by the total control by adenosine triphosphate at pyruvate kinase. The partial or nonoperation of this second site in Ehrlich ascites tumor cells appears to be the cause for the characteristic aerobic glycolysis, Crabtree effect, and low Pasteur effect of these cells.
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PMID:Metabolic control of glycolysis in normal and tumor permeabilized cells. 20 69


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