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)

There is evidence than adenosine 3',5'-monophosphate (cAMP) and guanosine 3',5'-monophosphate (cGMP) may have antagonistic actions on cell growth, with cAMP inhibiting and cGMP stimulating this process. However, reductions in cAMP and increases in cGMP are not charactersitic of all neoplastic tissues. Thus, benign and malignant tissues from hepatoma-bearing rats exposed to the hepatic carcinogen DL-ethionine have elevated rather than depressed cAMP, compared to control liver, and parenteral administration of this drug increases hepatic cAMP within hours. In the present study, the effects of ethionine ingestion on the hepatic content and metabolism of both cAMP and cGMP were examined sequentially in rats at 2 and then 6 wk intervals, from the initiation of drug administration until the development of hepatomas. After 2 wk, cAMP content of quick-frozen liver from rats receiving ethionine (E) was significantly increased (826 +/- 91 pmole/g wet weight) above that of liver from pair-fed controls (C, 415 +/- 44), whether calculated by tissue wet weight, protein, or DNA content. In benign tissue from E, higher cAMP was still evident after in vitro incubations of slices with 2 mM 1-methyl-3-iso-butylxanthine (MIX) and was associated with enhanced adenylate cyclase and unchanged high or low Km cAMP-phosphodiesterase activities. These findings are compatible with accelerated cAMP generation in liver from E. Protein kinase activity ratios were significantly increased in frozen liver from E (0.52 +/- 0.04 versus 0.36 +/- 0.03 in C), and the percent glycogen synthetase in the I form was clearly reduced (19% +/- 2% in E versus 47% +/- 5% in c). incubation of hepatic slices from E or C with MIX and/or 10 muM glucagon further increased cAMP and protein kinase activity ratios, data which imply higher effective, as well as total, cellular cAMP in E. Changes in cAMP metabolism and action observed at 2 wk persisted throughout the 38-wk period of drug ingestion. Adenylate cyclase activity, cAMP content, and protein kinase activity ratios of ethionine-induced hepatomas exceeded those of both the surrounding liver from tumor-bearing rats and that of control liver, but alterations in these parameters were qualitatively similar in both tissues from E. By contrast, while cGMP in quick-frozen surrounding liver from tumor-bearing rats (36 +/- 4 pmole/g wet weight) did not differ from that of control liver (30 +/- 3), cGMP in the hepatomas was increased. This change was evident in both frozen tumor (89 +/- 10) and in tumor slices incubated in vitro with MIX (C, 90 +/- 11; surrounding liver, 85 +/- 10; hepatoma 231 +/- 29). These results indicate that malignant conversion can occur in liver with a sustained elevation of both total and effective cAMP during the premalignant phase. The increase in cGMP detected in ethionine-induced hepatomas could also be a key determinant of malignant transformation in the model, although premalignant changes in cGMP were not apparent.
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PMID:Sequential alterations in the hepatic content and metabolism of cyclic AMP and cyclic GMP induced by DL-ethionine: evidence for malignant transformation of liver with a sustained increase in cyclic AMP. 18 92

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

Plasma membranes from rat liver were found to contain at least two types of specific binding sites for cyclic [3H] adenosine 3', 5'-monophosphate (c[3H]AMP) with apparent dissociation constants of 0.51 +/- 0.14 and 2.9 +/- 0.6 nM (O degrees), respectively. The levels of these binding sites in liver plasma membranes were about 0.60 +/- 0.20 and 1.3 +/- 0.5 pmole/mg protein. The highest affinity binders for c[3H]AMP were found to be reduced in amount in plasma membranes of ascites hepatomas to 1/3 to 1/4 as compared with liver membranes in the cases of AH-130 and AH-7974 and to an almost undetectable level in the case of AH-130F(N). No difference in the endogenous phosphorylation of plasma membranes by (gamma-32P])ATP was, however, detected among liver and hepatoma plasma membranes. Addition of cAMP or cGMP at various concentrations did not affect the endogenous phosphorylation of plasma membranes of these cells.
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PMID:High affinity binders for cyclic adenosine 3', 5'-monophosphate on plasma membranes isolated from rat liver and ascites hepatomas. 18 3

1. Adenylate cyclase in plasma membranes from rat liver was stimulated by prostaglandin E1, and to a lesser extent by prostaglandin E2. Prostaglandin F1alpha and A1 did not stimulate the cyclase. The prostaglandin E1-mediated activation was found to require GTP when the substrate ATP concentration was reduced from 3 mM to 0.3 mM in the reaction mixture. Adenylate cyclase of the plasma membranes from rat ascites hepatomas AH-130 and AH-7974 was not stimulated by prostaglandin E1 in the presence or the absence of GTP, although the basal activity of adenylate cyclase as well as its stimulation by GTP alone were similar to normal liver plasma membranes. 2. Liver plasma membranes were found to have two specific binders for [3H] prostaglandin E1 with dissociation constants of 17.6-10(-9) M and 13.6-10(8) M (37 degrees C) and one specific binder for [3H]prostaglandin F2alpha with a dissociation constant of 2.31-10(8) M (37 degrees C). The specific binders for prostaglandin E1 could not be detected in the hepatoma plasma membranes. 3. Binding of [3H] prostaglandin E1 to the liver plasma membranes was exchange by, GTP dGPT, GDP, ATP and GMP-P(N)P, but not by GMP, CGMP, DTTP, UTP or CTP. The increase in the binding of [3H] prostaglandin E1 was found to be due to the increased affinity of the specific binders to prostaglandin F2alpha was not affected by GTP. 4. GTP alone was found to increase V of adenylate cyclase of liver plasma membranes, while GTP plus prostaglandin E1 was found to decrease Km of adenylate cyclase in addition to the increase of V to a further extent.
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PMID:Prostaglandin receptor-adenylate cyclase system in plasma membranes of rat liver and ascites hepatomas, and the effect of GTP upon it. 18 13

The studies are presented which demonstrate that smooth endoplasmic membrane of normal liver has a single apparent binding site for cAMP with a KD of 0.6 X 10(-8) M. In contrast to this, however, cyclic AMP binding to the intracellular membrane of hepatoma 7800 exhibit two binding sites; the binding constant of one site on the tumor membrane is comparable to that of the normal liver whereas the value of the second intrinsic association constant differ by a factor of 10. It is suggested that there may be an association between abnormal cyclic nucleotide metabolism and the intracellular membrane modulation of the expression of genetic information in normal and neoplastic cells.
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PMID:Cyclin nucleotide binding sites of the smooth endoplasmic reticulum from normal and neoplastic liver in the rat. 18 1

Specific activity and level of polynucleotide phosphorylase (PNPase) in polyribosomes of regenerating liver of adult rats, liver of newborn rats and in malignant tumours of rat (sarcoma M-1 and hepatoma 27) were studied. 24 hours after partial hepatectomy the specific activity and level of PNPase in regenerating liver decreased 3--4 times in the fraction of polyribosomes, bound to the endoplasmic reticulum membranes, and remained at a constantly low level in the fraction of free polyribosomes. The PNPase activity also showed a sharp decrease in the fraction of membrane-bound polyribosomes from newborn rats liver and could not be detected either in free or in bound polyribosomes from sarcoma M-1 or hepatoma 27. The PNPase activity in the fraction of bound polyribosomes increased with a decrease in the rate of liver growth (regenerating liver and newborn rats liver), and reached the level normal for adult animals. Possible mechanisms of regulation of the PNPase activity in animal tissue were studied. It was found that a 2-fold administration of cyclic 3,5'-AMP to intact animals (5 mg per 100 g of body weight) with an interval of 8 hours, corresponding to the interval between two peaks of the increase in cyclic 3,5'-AMP concentration following partial hepatectomy, diminished the PNPase specific activity in polyribosomes by 30%. A factor, presumably of protein origin, which induced a release of PNPase from polyribosomes of normal rat liver but did not affect the activity of the liberated enzyme, was detected in the cell sap of sarcoma M-1 and hepatoma 27.
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PMID:[The activity of polynucleotide phosphorylase in polyribosomes of regenerating liver of adult rats, liver of newborn rats and in some reinoculated tumours]. 19 Nov 6

Fractions of heavy and light mitochondria are isolated from homogenates of homologous rat tissues (intact liver, regenerating liver within 24 hours after hepatectomy and 27 hepatoma) by means of differential centrifugation. It is found that tumour mitochondria have higher heterogeneity and lower buyoant density than mitochondria from normal hepatocytes. The activity of two enzymes of DNA precursors synthesis (ribonucleotide reductase and thymidine kinase) in subcellular fractions is demonstrated to correlate with the tissue growth rate. A single injection of cyclic AMP into hepatectomised rats resulted in the retardation of the regeneration process, and the activity of both enzymes reached its normal level in all the fractions studied after 24 hours after the operation. Thymidine kinase and ribonucleotide reductase are located mainly in the mitochondrial matrix, however, pronounced enzyme activity is observed also in membrane fractions. The activity of the enzymes in the fraction of external mitochondria membranes in rapidly growing tissues is 2--3 times as high as in the same fraction from normal rat liver.
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PMID:[Mitochondrial thymidine kinase and ribonucleotide reductase from rat liver and rat hepatoma 27]. 19 36

Normal expression of a variety of hormonal effects which depend on cyclic AMP (adenosine 3':5'-monophosphate) requires the presence of glucocorticoids. Our hypothesis was that glucocorticoids control directly or indirectly the activity of cyclic-AMP-dependent protein kinase. This has been investigated in cultured hepatoma (HTC) cells in which N6,O2'-dibutyryladenosine 3':5'-monophosphate increases the activity of tyrosine transaminase only after glucocorticoid treatment. In these cells, we have determined the concentration and half-life of protein kinase, the sensitivity of this enzyme in vitro to cyclic AMP and to its thermostable protein inhibitor, the state of dissociation of protein kinase holoenzyme in vivo and its sensitivity, in the intact cell, to dibutyryladenosine 3':5'-monophosphate and to the inhibitor diamide, and we have also determined the concentration of endogenous thermostable protein inhibitor of protein kinase. None of these parameters were influenced by glucocorticoids under conditions where these hormones stimulate the activity of tyrosine transaminase and restore sensitivity to dibutyryladenosine 3':5'-monophosphate. It is concluded that the permissive action of glucocorticoids probably results from a control of cyclic-AMP-dependent processes exerted at a level beyond the protein kinase system.
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PMID:Activity of protein kinase dependent on adenosine 3':5'-monophosphate and of its thermostable protein inhibitor in rat hepatoma (HTC) cells. Unlikely role in the permissive action of glucocorticoids. 19 14

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

Intracellular levels of cyclic AMP (cAMP), adenylate cyclase, and cAMP-phosphodiesterase activities at lag-period, exponential and stationary growth phases of hepatoma 22a were determined. It was shown that the transition of tumour cells from the lag-period to the exponential phase of growth was accompanied by the two-fold decrease of intracellular cAMP level on account of drastic activation of cAMP phosphodiesterase. Subsequently the cAMP level lowered more slowly until the cells entered the stationary phase of growth. In view of the fact that the adenylate cyclase activity failed to change at different growth phases of hepatoma 22a, it seems very proballe that the rise of cAMP phosphodiesterase activity could be a signal for the exit of tumour cells from the lag-period and their entrance into the mitotic cycle.
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PMID:[Concentration and metabolism of cyclic AMP during the early stages of hepatoma 22a growth]. 19 92


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