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:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty-one cell lines (six human lines, and nine mouse lines) were compared with respect to inhibition of growth by N-6-(delta-2-isopentenyl)adenosine (IPAR). Six of these, mouse Sarcoma 180, Ehrilich ascites carcinoma, mammary adenocarconoma (TA3), leukemia L1210, mouse kidney, and canine kidney cells, differed by up to 16-fold with respect to their sensitivity and were chosen for further study. One factor contributing to the resistance was a slower formation of intracellular 5-monophosphate of IPAR (IPAMP) due to reduced adenosine kinase activity. Because of this slower formation of IPAMP in the resistant cells, a higher extracellular IPAR was required for the maintenance of equal intracellular IPAMP levels. Regardless of the degree of resistance, the rate of decay of intracellular IPAMP was similar and very rapid, with a half-life of 37 plus or minus 5 min. In the sensitive cells IPAMP was cleaved back to IPAR, while in the resistant cells IPAR was cleaved further to the free base, N-6-(delta-2-isopentenyl)adenine (IPA), which accumulated in the medium. The rate of formation of IPA constitutes an irreversible inactivation of IPAR, because IPA is not converted back to IPAMP and is not growth inhibitory. In one of the resistant cells (mouse kidney) the inactivation was so rapid that in 1 hr 25% of the extracellular (30 muM) IPAR was converted to IPA.
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PMID:Mechanism of natural resistance to N6-(delta2-isopentenyl)adenosine in cultured cells. 16 74

The mode of transport of a nonphosphorylated adenosine analog, 5'-deoxyadenosine, was studied in murine leukemia L1210 cells. This compound is not subject to the action of intracellular nucleoside-trapping kinases, and its transport can be examined without regard for effects of experimental conditions on kinase activity. Accumulation of 5'-deoxyadenosine was rapid, and nonconcentrative, with equilibrium attained within 12 s at 37 degrees. Kinetic studies were carried out at 20 degrees. We found both a nonmediated (diffusion) and a mediated transport process. The latter had an apparent Km fo 115 micrometer, Vmax = 105 pmol/10(6) cells/min. Uptake of 5'-deoxyadenosine was inhibited by several heterologous nucleosides including adenosine, 2'-deoxyadenosine, thymine riboside, and inosine. Like 2'-deoxyadenosine, 5'-deoxyadenosine was more lipid-soluble than adenosine (from octanol/water partition studies). Compared with 5'-deoxyadenosine, adenosine had a much lower apparent Km (5 micrometer) and a higher Q10 over the 27-37 degrees range (3.0 versus 1.3). Data obtained with adenosine might, however, reflect properties of intracellular adenosine kinase interacting with a transport process.
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PMID:Transport of a nonphosphorylated nucleoside, 5'-deoxyadenosine, by murine leukemia L1210 cells. 20 33

This investigation analyzed the metabolism of 2',2'-difluorodeoxycytidine (dFdC) in K562 human leukemia cells and evaluated it as a biochemical modulator for the phosphorylation of several arabinosyl nucleosides. The rate of accumulation of dFdC triphosphate was linear up to 3 h and maximal during incubation with 10 microM dFdC (92 microM/h). Deoxynucleotides analyzed at this time showed a decrease in dCTP, dATP, and dGTP levels, indicating an inhibitory role of dFdC nucleotides in ribonucleotide reduction. We evaluated the hypothesis that dFdC-mediated deoxyribonucleoside triphosphate perturbation enhances the phosphorylation of substrates that use deoxycytidine kinase or deoxyguanosine kinase, because these enzymes are inhibited by dCTP or dGTP, respectively. When the activity of these nucleoside kinases was rate limiting to triphosphate formation, the accumulation of triphosphates of deoxycytidine, 1-beta-D-arabinofuranosylcytosine, and 1-beta-D-arabinofuranosylguanine was potentiated in cells pretreated with dFdC. In contrast, the phosphorylation of 9-beta-D-arabinofuranosyladenine was not affected, since it is mainly phosphorylated by adenosine kinase, which is not influenced by deoxyribonucleoside triphosphates. Treatment of cells with dFdC followed by 1-beta-D-arabinofuranosylcytosine resulted in greater cytotoxicity than sum effects of each drug alone. The data indicate that an enhanced cytotoxicity could be obtained by administering dFdC as a modulator followed by 1-beta-D-arabinofuranosylcytosine or 1-beta-D-arabinofuranosylguanine in optimal sequence, suggesting that these results should be considered in the design of combination clinical protocols.
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PMID:Modulatory activity of 2',2'-difluorodeoxycytidine on the phosphorylation and cytotoxicity of arabinosyl nucleosides. 234 May 17

1. APP is activated by adenosine kinase to its 5'-phosphate (APP-MP). 2. APP-MP inhibits PRPP synthetase, and depletes cellular PRPP and purine and pyrimidine nucleotides. 3. APP inhibits synthesis of DNA and RNA, and blocks cells in G1 phase of the cell cycle. 4. APP retains full activity against MDR cells. 5. APP is equally active against quiescent and proliferating CHO cells. 6. APP has only weak activity against L1210 leukemia in vivo, but has substantial activity against mammary carcinoma 16/c. 7. In vitro, APP has a relatively high ratio of solid tumor: leukemia activity.
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PMID:Biochemical pharmacology and antitumor properties of 4-amino-8-[beta-D-ribofuranosylamino]pyrimido-[5,4-d]pyrimidine. 256 Mar 25

The mechanism of the depletion of ATP, recorded in the erythrocytes of adenosine deaminase-deficient children and of leukemia patients treated with deoxycoformycin, was investigated in normal human erythrocytes treated with this inhibitor of adenosine deaminase. Deoxyadenosine, which accumulates in both clinical conditions, provoked a dose-dependent accumulation of dATP, depletion of ATP, and increases in the production of inosine plus hypoxanthine. Concomitantly, there was an increase of AMP and IMP, but not of adenosine, indicating that catabolism proceeded by way of AMP deaminase. A series of nucleoside analogues (9-beta-D-arabinofuranosyladenine, N6-methyladenosine, 6-methylmercaptopurine ribonucleoside, tubercidin, ribavirin, and N-1-ribosyl-5-aminoimidazole-4-carboxamide riboside) also stimulated adenine nucleotide catabolism and increased AMP and IMP to various extents. The effects of deoxyadenosine and of the nucleoside analogues were prevented by 5'-iodotubercidin, an inhibitor of adenosine kinase. Strikingly, they were reversed if the inhibitor was added after the accumulation of nucleotide analogues and initiation of adenine nucleotide catabolism. Further analyses revealed linear relationships between the rate of phosphorylation of deoxyadenosine and nucleoside analogues and the increase in AMP and between the elevation of the latter above a threshold concentration of 10 microM and the rate of adenine nucleotide catabolism. Kinetic studies with purified erythrocytic AMP deaminase, at physiological concentrations of its effectors, showed that the enzyme is nearly inactive up to 10 microM AMP and increases in activity above this threshold. We conclude that the main mechanism whereby deoxyadenosine and nucleoside analogues stimulate catabolism of adenine nucleotides by way of AMP deaminase in erythrocytes is elevation of AMP, secondary to the phosphorylation of the nucleosides.
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PMID:Mechanism of adenosine triphosphate catabolism induced by deoxyadenosine and by nucleoside analogues in adenosine deaminase-inhibited human erythrocytes. 278 93

Neplanocin A, a novel antitumor antibiotic, was investigated to determine the biochemical mode(s) of its cytotoxic action. The molecule is an adenosine analogue with a unique cyclopentane structure in its ribose moiety. Both sublines of L1210 and P388 leukemia resistant to neplanocin A were cross-resistant in vitro to bredinin and 9-beta-D-arabinofuranosyladenine, which have been reported to be activated by adenosine kinase. The adenosine kinase activity was markedly reduced in the resistant sublines as compared with that of the respective sensitive lines. Furthermore, neplanocin A competitively inhibited the phosphorylation reaction of adenosine in a cell-free system. The results indicate that neplanocin A is activated by adenosine kinase. Regarding the target site for neplanocin A, the antibiotic suppressed RNA synthesis to a significantly greater extent than DNA synthesis. This RNA-preferential effect is unique among common antimetabolic antitumor agents.
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PMID:Biochemical mode of cytotoxic action of neplanocin A in L1210 leukemic cells. 394 84

Adenosine deaminase (ADA), purine nucleoside phosphorylase (PNP), 5'nucleotidase (5'NT), ecto-5'NT, hypoxanthine-guanine phosphoribosyltransferase(HGPRT), adenine phosphoribosyltransferase(APRT), adenosine kinase(AK), AMP deaminase (AMPD) and adenylate kinase(AdKin) activities were assayed in leukemic cells from bone marrow and/or peripheral blood of 43 newly diagnosed children with acute lymphoblastic leukemia(ALL). These enzyme activities have been investigated in relation to some immunological markers. ADA activity was higher in E-rosette positive leukemia(E+ ALL), while HGPRT, APRT, PNP, 5'NT, ecto-5'NT and AdKin activities were found to be lower in E+ ALL as compared to E- ALL. In common ALL (cALL) antigen positive leukemia, mean ADA activity was significantly lower as compared to cALL- leukemia, whereas PNP, 5'NT, ecto-5'NT and AdKin activities were significantly higher. cALL cells with cytoplasmic immunoglobulin M(IgM) heavy chains were found to have mean 5'NT activities twice as high as cALL cells lacking cytoplasmic IgM heavy chains. In two patients who had surface immunoglobulins on their cell membranes, low 5'NT activities were found. When measuring enzyme activities after 2-4 days of prednisone monotherapy, only mean ADA and HGPRT activities decreased in non-B, non-T ALL. These decreases were not significant in T-ALL patients. Mean enzyme activities in the leukemic cells of five patients with relapse were comparable to those in newly diagnosed patients, except for 5'NT, which was found to be within the activity range of control peripheral blood lymphocytes. It is concluded that ADA and AdKin activities are suitable as markers for E+ ALL and cALL+ leukemias respectively. 5'NT might help to distinguish between cALL cells having and lacking pre-B characteristics. Since 5'NT activity may also be decreased in B-ALL, it is not suitable as a T-ALL marker. Enzymes of purine metabolism in leukemic relapse need further investigation.
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PMID:Purine metabolism in childhood acute lymphoblastic leukemia: biochemical markers for diagnosis and chemotherapy. 631 Feb 74

1-beta-D-Ribofuranosyl-4-methylthiopyrazolo(3,4-d)pyrimidine (I) has been converted into its 5'-monophosphate (III) by reacting with POCl3 in trialkyl phosphates or by phosphorylating 2',3'-O-ethoxymethylidene derivative of riboside (I) using 2-cyanoethyl phosphate in the presence of DCC and subsequent removal of blocking groups. Condensation of nucleotide (III) imidazolide with pyrophosphoric acid afforded corresponding 5'-triphosphate. Pools of natural NTPs and riboside (I) phosphates were monitored by HPLC after administering riboside (I), phosphate (III), or 4-methylthiopyrazolo(3,4-d)pyrimidine (II) into mice with leukemia L1210 or after incubating CaOv culture cells with these compounds. Treatment with riboside (I) or nucleotide (III) possessing antileukemic and cytotoxic activites led to much higher level of monophosphate (III), than treatment with biologically inactive base (II). ATP and GTP levels in CaOv cells incubated with (I) or (III) decreased by 60-70%, whereas (II) did not affect NTP pool. Bioactivation of nucleoside (I) into monophosphate (III) proceeds via direct phosphorylation by adenosine kinase. No tranformation of (II) into (I) or (III) occurs under these conditions.
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PMID:[Biotransformation of 1-beta-D-ribofuranosyl-4-methylthiopyrazolo(3,4-d)pyrimidine and its 5'-monophosphate]. 649 15

A cultured line of L1210 leukemia cells, designated L1210/ara-A, was selected for resistance to 9-beta-D-arabinofuranosyladenine (ara-A) by a series of 72-hr exposures to increasing concentrations of ara-A in the presence of 1 microM deoxycoformycin. Cells of the resistant line were about one-tenth as sensitive as were cells of the parent line to the effects of ara-A on proliferation, viability, and tumorigenicity. Cross-resistance, as determined by comparison of drug effects on rates of proliferation of L1210/C2 and L1210/ara-A cells, was seen with adenosine, deoxyadenosine, methylmercaptopurine ribonucleoside, tubercidin, and cordycepin but not with 1-beta-D-arabinofuranosylcytosine or with 9-beta-D-arabinofuranosyl-2-fluoroadenine. The levels of resistance to methylmercaptopurine ribonucleoside, cordycepin, and tubercidin were considerably greater than that seen with ara-A itself. L1210/C2 and L1210/ara-A cells were compared with respect to the effects of ara-A on cell size distributions, DNA distributions, labeling indices, and apparent rates of DNA synthesis, and the differences seen were consistent with inhibition of DNA synthesis and unbalanced growth as the major mechanism of ara-A cytotoxicity. The decreased sensitivity of DNA synthesis in L1210/ara-A cells treated with ara-A, relative to L1210/C2 cells, was due to reduced intracellular accumulation of ara-A phosphates in the resistant line. Phosphorylation of ara-A, adenosine, and tubercidin, but not deoxyadenosine or deoxycytidine, was greatly reduced in intact L1210/ara-A cells, relative to L1210/C2 cells, and adenosine kinase activity in extracts of L1210/ara-A cells was negligible. Resistance to ara-A, and cross-resistance to tubercidin, methylmercaptopurine ribonucleoside, and cordycepin is attributed to loss of adenosine kinase activity.
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PMID:Resistance to 9-beta-D-arabinofuranosyladenine in cultured leukemia L 1210 cells. 660 4

(+/-)-3-(4-Amino-1H-pyrrolo[2,3-d]pyrimidin-1-yl)-5-(hydroxymethyl)- 1 alpha,2 alpha,3 beta,5 beta)-1,2-cyclopentanediol (9), the carbocyclic analogue of tubercidin, prepared from (+/-)-3-amino-5-(hydroxymethyl)-(1 alpha,2 alpha,3 beta,5 beta)- 1,2-cyclopentanediol (6), is cytotoxic to cells containing adenosine kinase but not to cells that do not, indicating that its activity depends on phosphorylation. Although inactive against P388 leukemia in mice and against herpes and influenza viruses in vitro, it showed marginal activity against respiratory syncytial, vesicular stomatitis, and rhino viruses in vitro.
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PMID:(+/-)-3-(4-Amino-1H-pyrrolo[2,3-d]pyrimidin-1-yl)-5-(hydroxymethyl)- (1 alpha,2 alpha,3 beta,5 beta)-1,2-cyclopentanediol, the carbocyclic analogue of tubercidin. 670 54


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