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 recently described the presence of a guanylate cyclase [GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2] inhibitor (GCI) in an aqueous extract of the balsam pear (Momordica charantia abbreviata). Because the guanylate cyclase-cyclic GMP system is though to be involved in cell growth, DNA and RNA synthesis, and possible malignant transformation, we examined the effect of the aqueous extract containing GCI on an undifferentiated adenocarcinoma of the rat prostate and concanavalin-A-stimulated [3H]thymidine incorporation into cultured splenic lymphocytes, a process thought to be mediated by cyclic GMP. The results demonstrate that the extract of the balsam pear blocks both the growth of the rat prostatic adencarcinoma in vitro and [3H]thymidine incorporation into DNA. DNA histograms from flow cytometry indicated that the extract containing GCI inhibited in the G2 + M phase of the cell cycle, a presumed locus of cyclic GMP effects. In addition, guanylate cyclase activity was significantly greater in the tumor than normal prostate tissue and was decreased by the extract containing GCI. Cyclic GMP levels in the tumor in culture wer also decreased by addition of the extract. It remains to be determined whether or not the anti-tumor agent and GCI are the same substance.
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PMID:Inhibition of growth and guanylate cyclase activity of an undifferentiated prostate adenocarcinoma by an extract of the balsam pear (Momordica charantia abbreviata). 2 47

Ehrlich ascites tumor cells containing radioactive ATP were incubated in vitro with a range of concentrations of 2-deoxyglucose in order to produce different rates of ATP catabolism. Concentrations of all radioactive products of ATP catabolism were measured, and apparent rates of adenylate deaminase and inosinate dehydrogenase and of adenylate and inosinate dephosphorylation were calculated. It was concluded that these processes were reggulated primarily by the rate of formation of substrate, and to a lesser extent in some cases, by substrate concentration. No evidence was obtained for regulation of these processes by the concentration of ATP. The deoxyglucose-induced catabolism of radioactive GTP was also studied. When ATP catabolism was induced by incubation with 2,4-dinitrophenol, time courses of accumulation of purine nucleoside monophosphates and rates of alternative pathways of their metabolism were quite different than when deoxyglucose was used.
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PMID:Studies of the regulation of purine nucleotide catabolism. 16 83

The activity of purified RNA polymerase II from Novikoff ascites tumor cells is stimulated 5-7-fold by a purified protein factor. This protein factor, designated HLF2, has extensive protein kinase activity and catalyzed the incorporation of gamma-32G from ATP into protein under normal RNA polymerase assay conditions. Protein phosphorylation is totally dependent on the presence of HLF2 and is stimulated 2-3-fold by the presence of highly purified RNA polymerase II. The purification procedure developed for the isolation of the polymerase stimulatory factor resulted in a 4000-fold purification of a protein kinase. Chromatography on carboxymethylcellulose, phosphocellulose, and Sephadex G-100 did not resolve polymerase stimulatory activity from protein kinase activity. Adenylimidodiphosphate (AMP-PNP), an inhibitor of protein kinases, inhibited the stimulatory activity of purified factor by 80%. The heat denaturation profile of protein kinase was paralleled by the loss of polymerase stimulatory activity. Concentrations of (NH4)2SO4 which are known to inhibit polymerase stimulation (Lee and Dahmus, 1973) also inhibit protein kinase activity. The protein kinase activity associated with stimulatory factor catalyzes the phosphorylation of basic proteins such as protamine or histone. The protein kinase is not stimulated by cyclic 3', 5'-AMP or -GMP over a concentration range of 10(-6)-10(-4)M. Furthermore, protein kinase activity is not inhibited by either the regulatory subunit of rabbit muscle protein kinase or by the heat-stable inhibitor of cyclic 3', 5'-AMP-dependent protein kinases. Protein kinase activity is stimulated by KCl or NH4Cl and is inhibited by MnCl2. The apparent Km values, determined in the presence of 4 mM Mg2+, are 0.02 mM for ATP, and 4.1 mM for GTP.
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PMID:Stimulation of ascites tumor RNA polymerase II by protein kinase. 17 56

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

A protein kinase, designed KII, has been purified 5000-fold from Novikoff ascites tumor cells. The purification procedure also allows for the purification of a second major protein kinase, designated KI, as well as RNA polymerase I and II. Purified KII has a sedimentation constant of 7.6 S and a Stokes radius of 39 A, suggesting a molecular weight of about 122000. Polyacrylamide gel electrophoresis of the enzyme in the presence of sodium dodecyl sulfate suggests the enzyme is composed of subunits of molecular weights 44 000, 40 000, and 26 000 present in a molar ratio of 1:1:2. Incubation of the enzyme alone in the presence of [gamma-32P]ATP results in the phosphorylation of the 26 000-dalton subunit. Protein kinase II actively phosphorylates phosvitin, casein, and nonhistone chromosomal proteins but does not phosphorylate basic proteins such as histones or protamine to an appreciable extent. Km values of 3.6 micron for ATP and 6.5 micronM for GTP were determined in the presence of 4mM Mg2+. The enzyme is neither stimulated by cyclic adenosine 3',5'-monophosphate or cyclic guanosine 3', 5'-monophosphate nor inhibited by the regulatory subunit of rabbit muscle protein kinase. Its activity is stimulated by KCl at concentrations below 0.2 M and inhibited by higher concentrations.
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PMID:Purification and characterization of Novikoff ascites tumor protein kinase. 19 79

The effects of lowered intracellular ATP and GTP concentrations on enzymes of purine ribonucleotide synthesis and intercoversion were studied using intact Ehrlich ascites tumor cells. The apparent rates of phosphoribosyl pyrophosphate synthetase (EC 2.7.6.1) and of inosinate dehydrogenase (EC 1.2.1.14) were increased in cells containing lowered purine nucleotide concentrations, but apparent activities of amidophosphoribosyltransferase (EC 2.4.2.14), the purine phosphoribosyltransferases, and other enzymes of purine ribonucleotide interconversion were not affected.
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PMID:Effect of lowered intracellular ATP and GTP concentrations on purine ribonucleotide synthesis and interconversion. 19 82

The substrate specificity and the effects of nucleotides and SH-blocking agents on the p-nitrophenylphosphatase activity of intact Ehrlich ascites tumor cells (EAT) cells were studied. DL-beta-Glycerophosphate, o-phosphoethanolamine, cholinephosphate, glucose-6-phosphate, o-carboxyphenylphosphate,, phosphoenolpyruvate and AMP were not attacked by intact cells. ATP is greater than GTP is greater than UPT is greater than PPi is greater than pNPP were cleaved with decreasing velocity. A stimulation of the cleavage of p-NPP by the following nucleotides was observed with decreasing effectivity: ATP is greater than ADP is greater than GTP is greater than UTP; AMP was ineffective. The phosphatase activity was not affected by malate, tartrate and glutathion disulfide. The SH blocking agents diamide and thimerosal were more effective inhibitors of the pNPPase than of the ATPase activity, whereas the hydrolysis of ATP is more affected by the ATP analog adenylylimidodiphosphate. The present data are best compatible with a double headed enzyme: Both active sites interact with ATP, only one is active against p-NPP and sensitive against SH-blocking agents.
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PMID:Further investigations on the p-nitrophenylphosphatase activity of intact Ehrlich ascites tumor cells. 20 18

Avian sarcoma virus (ASV) induces sarcomas in animals and transforms fibroblasts to a neoplastic state in cell culture. A single viral gene (src) is responsible for both the induction and maintenance of neoplastic transformation. Recent work has identified a protein with a molecular weight of 60,000 daltons that is apparently encoded in src and may be the effector molecule for the gene (Brugge and Erikson, 1977; Purchio et al, 1978). The putative product of src can be immunoprecipitated by antisera obtained from rabbits bearing tumors induced by ASV. We have used this approach to isolate the protein to characterize further its genetic origins and possible function. Our rabbit tumor antisera precipitated a protein with a molecular weight of 60,000 daltons; according to serological, biochemical and genetic criteria, this protein is encoded in src. We found that this protein is phosphorylated and therefore denoted it pp60. Phosphorylation of pp60 could be accomplished in vitro with extracts of ASV-infected cells. A temperature-sensitive conditional mutation in src had no demonstrable effect on either the production or stability of pp60 in the infected cell, but phosphorylation of the protein was temperature-sensitive. Since the mutant src is not expressed at the restrictive temperature, our findings raise the possibility that phosphorylation of pp60 is required for its function as the putative effector of src. Immunoprecipitates prepared with extracts of ASV-infected cells and the rabbit tumor antisera contained a protein kinase activity that catalyzed phosphorylation of the heavy chains of immunoglobulin molecules, using either ATP or GTP as phosphate donor. The kinase activity immunoprecipitated in parallel with pp60 was obtained only from cells that contained a functioning product of src and could not be precipitated with antisera directed against structural proteins of ASV. A temperature-sensitive conditional mutation in src caused the kinase activity to be thermally inactivated in vitro far more rapidly than the activity from cells infected with wild-type virus. We conclude that both the protein kinase and pp60 are encoded in src, and that the enzymatic activity may be an intrinsic property of pp60. Phosphorylation of pp60 in cellular extracts was inhibited by calcium ion, whereas the immunoprecipitable kinase activity was not, suggesting that the kinase responsible for pp60 phosphorylation may be distinct from that encoded in src. Collett and Erikson (1978) have also identified a protein kinase activity associated with pp60. These findings raise the possibility that phosphorylation of specific cellular targets might account for transformation of the host cell by src.
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PMID:Evidence that the transforming gene of avian sarcoma virus encodes a protein kinase associated with a phosphoprotein. 21 42

The tRNA nucleotidyltransferase activity (3H-CMP incorporation into 3'-terminus of tRNApC) in cytoplasmic fractions of various types of cells such as Ehrlich ascites tumor cells, mouse liver and spleen cells, rat spleen, lymph node, and macrophages cells was found to be dependent on the concentrations of nucleoside 5'-triphosphates (ATP, GTP, UTP, dATP, dGTP, dCTP, and/or dTTP). The purified tRNA nucleotidyltransferase did not show such dependency. The dependency of the enzyme activity on nucleoside 5'triphosphates in the crude cytoplasmic fractions was possibly due to the presence of inhibitors which interfere with the repair system of defective 3'-termini of tRNA. Two kinds of inhibitors were distinguishable in the cytoplasmic fractions. One was unstable on heat treatment at 55 decrees C and showed ribonuclease activity for the tRNA 3'-terminus. The other which lacked ribonuclease activity was rather stable to the heat treatment and inhibited purified tRNA nucleotidyltransferase. The actions of both inhibitors were suppressed by nucleoside 5'-triphosphates.
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PMID:Effect of nucleoside 5'-triphosphates on tRNA nucleotidyltransferase activity in cytoplasmic fractions of various types of mammalian cells. 42 63

When protein biosynthesis is inhibited by either cycloheximide of puromycine, the nucleolar RNA synthesis of Ehrlich ascites tumor cells decreases by approximately 70% within 1 h, while the removal of these protein synthesis inhibitors causes a rapid recovery of nucleolar RNA synthesis, largely within 1 h. A similar pattern of decrease and recovery of endogenous RNA polymerase activity in isolated nucleoli or in nuclei (in the presence of alpha-amanitin) may be demonstrated after addition and removal of these drugs. Analysis of the molecular species of RNA polymerase I on a phosphocellulose column indicates that only the IB form of the enzyme decreases in the nucleoli of drug-treated cells and recovers quickly after resumption of protein synthesis. The finding that the activity of the IB form enzyme remains unchanged in the whole nuclei indicates that during cessation of protein synthesis RNA polymerase IB is either released from the nucleoli into the extranucleolar compartment or becomes so loosely bound to the nucleoli that it is leached out from the nucleoli during their isolation. By using a system of assaying free, nucleolar-template bound and total RNA polymerase I activities, data supporting the above interpretation have been obtained. Namely, in isolated nuclei free enzyme activity increases with a concomitant decrease in bound enzyme activity during protein synthesis inhibition, while the total enzyme activity remains unchanged. In isolated nucleoli, both total and bound enzyme activities decreases on protein synthesis inhibition but recover quickly on its resumption. The putative bound enzyme, fractionated with the aid of actinomycin D, is exclusively IB form, whereas the unbound enzyme consists of both IA and IB forms as previously demonstrated (1). No conversion of IB form polymerase to IA form was noted on prolonged sonication in our system. The levels of ATP and GTP in the cell did not change appreciably either during cessation or resumption of protein synthesis in these cells. The data support the previous conclusion that some short-lived protein(s) is required to maintain the normal level of ribosomal RNA transcription (2) and further suggest that the protein is required to facilitate reinitiation of the transcription by RNA polymerase IB in the nucleolus.
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PMID:The mechanism of decrease in nucleolar RNA synthesis by protein synthesis inhibition. 42 65

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