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)

The properties of a series of methotrexate analogs containing 2,omega-diaminoalkanoic acids have been investigated. The compounds were potent inhibitors of dihydrofolate reductase but, unlike methotrexate, they were also inhibitors of mammalian folylpolyglutamate synthetases. The potency of synthetase and reductase inhibition increased with increasing length of the 2,omega-diaminoalkanoate moiety. The most cytotoxic compound and the most potent inhibitor of both dihydrofolate reductase (I50 = 2.5 to 4 nM) and folylpolyglutamate synthetase (Ki ca. 4 microM) contained 2,5-diaminopentanoic acid (ornithine). These compounds were 70- to 100-fold less cytotoxic than methotrexate to human leukemia cell lines; however, they retained their potency against sublines resistant to methotrexate via defective transport. Their dual loci of enzyme inhibition and their efficacy against methotrexate transport-defective cell lines indicate that these compounds may be an important new class of antifol.
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PMID:Folylpolyglutamate synthetase inhibition and cytotoxic effects of methotrexate analogs containing 2,omega-diaminoalkanoic acids. 242 84

Two methotrexate-resistant sublines, CCRF-CEM R3/7 and CCRF-CEM R30/6, were selected from the human leukemia T-lymphoblast cell line, CCRF-CEM, after repeated exposures (7 and 6 times, respectively) for 24 h to constant concentrations (3 and 30 microM) of the drug. Analysis of the mechanism of resistance revealed no differences in levels of dihydrofolate reductase activity, its binding affinity for methotrexate, or in methotrexate transport between the CCRF-CEM parent and methotrexate-resistant cell lines. The development of resistance to methotrexate was associated with a marked decrease in the intracellular level of methotrexate polyglutamates. Although the resistant sublines were able to form substantial amounts of folate polyglutamates when measured with [3H]folic acid, the level of polyglutamates formed was decreased to about 50% of that formed by the parent cell line. No qualitative differences in folate polyglutamates formed were noted between the parental and resistant sublines. This is the first example of a cell line which displays resistance which is solely attributable to defective methotrexate polyglutamate synthesis.
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PMID:Impaired polyglutamylation of methotrexate as a cause of resistance in CCRF-CEM cells after short-term, high-dose treatment with this drug. 245 Jun 47

The formation, retention and biological activity of the polyglutamate metabolites of the thymidylate synthase (TS) inhibitor N10-propargyl-5,8-dideazafolic acid (CB3717) has been investigated in L1210 murine leukaemia cells grown in vitro. CB3717 polyglutamates were measured by HPLC using high specific activity 3H-CB3717. Following the exposure of cells to 50 microM CB3717 for 6, 12 and 24 hr total cellular radioactivity corresponded to 4.5 +/- 1.5, 6.8 +/- 3.6 and 5.9 +/- 3.4 microM drug derived material, respectively. Of this material, greater than 70%, 57 +/- 3% and 51 +/- 5% was in the form of unchanged CB3717 at 6, 12 and 24 hr respectively. The remaining radioactivity was associated with polyglutamate metabolites of CB3717, predominantly the tetra and pentaglutamate forms. Following the removal of extracellular drug after incubation for 24 hr and resuspension in drug free medium, unchanged CB3717 was lost rapidly from the cells such that after 6 hr it accounted for only 5% of total cellular radioactivity. In contrast, levels of CB3717 tetra and pentaglutamates declined solely due to dilution during cell division. Measurement of the whole cell TS activity by 3H-deoxyuridine incorporation into DNA indicated that, despite the loss of unchanged CB3717 from the cell, enzyme activity remained suppressed (less than 10% of control) for at least 24 hr after resuspension in drug free medium. The TS inhibitory activity of the polyglutamated metabolites of CB3717 was investigated using enzyme purified from L1210 cells. As inhibitors, the metabolites were 26-, 87-, 119- and 114-fold more potent than CB3717 as the di-, tri-, tetra- and pentaglutamate forms, respectively. However, as inhibitors of dihydrofolate reductase prepared from rat liver, CB3717 polyglutamates were no more than 5-fold More potent than the parent compound. This study has shown that CB3717 can undergo polyglutamation in tumour cells and that the metabolites are preferentially retained giving rise to prolonged TS inhibition. By virtue of their potent TS inhibitory activity these metabolites are, therefore, most probably the intracellular effectors of CB3717 cytotoxicity.
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PMID:Formation and retention and biological activity of N10-propargyl-5,8-dideazafolic acid (CB3717) polyglutamates in L1210 cells in vitro. 246 Dec

This paper describes studies that further explore the pharmacologic activity of the 7-hydroxy catabolite of methotrexate (7-OH-MTX). A 3-hr exposure of L1210 leukemia cells to 100 microM 7-OH-MTX produced negligible suppression of cell growth despite the build-up of intracellular polyglutamyl congeners to levels 2.7 times greater than the dihydrofolate reductase (DHFR) binding capacity. There was no evidence for direct inhibition of DHFR under these conditions based upon measurements of cellular tetrahydrofolate cofactor and dihydrofolate levels, nor was there suppression of [3H]deoxyuridine incorporation into DNA or [14C]formate incorporation into purines. When the interval of exposure to 100 microM 7-OH-MTX was increased to 6 hr, cell growth was inhibited by 60% and there was mild (approximately 50%) inhibition of purine and thymidylate biosynthesis associated with a small increase in cellular dihydrofolate and a small decline in cellular tetrahydrofolates. Consistent with weak inhibition of DHFR was the absence of significant binding of 7-OH-MTX polyglutamates to DHFR as assessed by gel filtration of cell extracts. Mild direct inhibition of purine biosynthetics by 7-OH-MTX- or MTX-polyglutamyl congeners was demonstrated based upon inhibition of [14C]formate incorporation into purines in cells pretreated with fluorodeoxyuridine so as to prevent tetrahydrofolate cofactor depletion or dihydrofolate polyglutamate build-up. Effects of a 6-hr exposure of cells to 100 microM 7-OH MTX on cell growth were reversed completely by 10 microM leucovorin; effects on cells containing comparable levels of MTX polyglutamyl congeners were unaffected by leucovorin. These studies demonstrate very weak inhibition of L1210 leukemia cell growth and purine, pyrimidine and tetrahydrofolate synthesis by the polyglutamyl congeners of 7-OH-MTX. The data suggest that effects of 7-OH-MTX polyglutamates on folate-requiring enzymes are not likely to play an important role in moderate-dose MTX regimens. However, pharmacologic activity may be expressed in high-dose MTX protocols when high blood levels of 7-OH-MTX are sustained over long intervals to the extent to which polyglutamate congeners accumulate in tumor cells and add to the much more potent inhibitory effects of MTX polyglutamates already present. Pharmacologic activity, however, would be diminished, if not completely reversed, by the concurrent administration of leucovorin.
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PMID:Further studies on the pharmacologic effects of the 7-hydroxy catabolite of methotrexate in the L1210 murine leukemia cell. 246 76

We previously reported (J. Galivan et al., Proc. Natl. Acad. Sci. USA, 82: 2598-2602, 1985) the synthesis and characterization of DL-erythro,threo-gamma-fluoromethotrexate (FMTX). The individual diastereomers, DL-erythro-FMTX (eFMTX) and DL-threo-FMTX (tFMTX), and their radiolabeled counterparts have now been prepared and characterized. Transport of eFMTX (Km = 9.3 microM; Vmax = 7.5 pmol/min/10(7) cells) was similar to that of methotrexate (MTX: Km = 6.6-9.9 microM; Vmax = 11.4-14.2 pmol/min/10(7) cells), while tFMTX (Km = 65.1 microM; Vmax = 8.4 pmol/min/10(7) cells) was transported less efficiently. Both isomers were able to saturate intracellular dihydrofolate reductase and accumulate further as unbound intracellular drug. Based on competition experiments and studies with MTX transport-defective cell lines, both isomers utilized the reduced folate/MTX transport system. Efflux half-times for the isomers were similar to those of MTX. Each isomer was equivalent to MTX in its ability to inhibit dihydrofolate reductase activity and bind to intracellular dihydrofolate reductase when the intracellular drug concentration was limiting. Both isomers had drastically diminished capacity to be metabolized to poly(gamma-glutamyl) metabolites by isolated folylpolyglutamate synthetase and in whole cells; tFMTX was metabolized to a slightly lesser extent than eFMTX. Using the CCRF-CEM human leukemia and H35 rat hepatoma cell lines, the growth-inhibitory effects of eFMTX were almost the same as those of MTX during continuous exposure, while tFMTX was slightly less potent. This difference in growth-inhibitory potency of the two isomers correlated with their ability to inhibit de novo thymidylate synthesis in the H35 cell line. These results indicate that both diastereomers of FMTX are similar in their properties to MTX, except that both are incapable of being readily converted to polyglutamate derivatives. As a result of these properties, both isomers could be used under appropriate conditions in comparative studies with MTX to define the roles of MTX polyglutamates.
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PMID:Biochemical and growth inhibitory effects of the erythro and threo isomers of gamma-fluoromethotrexate, a methotrexate analogue defective in polyglutamylation. 247 80

The Boon-Leigh procedure, involving condensation of a 6-chloro-5-nitropyrimidine (22) with an alpha-amino ketone (20 or 21) followed by reduction of the nitro group, cyclization, and L-glutamylation, led to the formation of 11-deazahomofolate (29) and its 10-methyl derivative (30). The corresponding (6R,S)-5,6,7,8-tetrahydro (4, 5) and 7,8-dihydro (31, 32) derivatives were prepared by catalytic hydrogenation. (6S)-11-Deazatetrahydrohomofolate was prepared from 29 by enzymatic reduction. Compounds 29 and 30 had little effect (IC50 greater than 2 x 10(-5) M) on Lactobacillus casei glycinamide ribonucleotide (GAR) formyltransferase but (6R,S)-11-deazatetrahydrohomofolate (4) is a potent inhibitor of this enzyme (IC50 = 5 x 10(-8) M). It is at least 100 times more inhibitory than 33, the 6S compound, indicating that the 6R component of the mixture having the unnatural configuration at C6 (34) is responsible for the potent inhibition. Compound 4 is a much weaker inhibitor of murine (L1210) and human (MOLT-4) leukemia cell GAR formyltransferases (IC50 greater than 1 x 10(-5) M). (6R,S)-11-Deaza-10-methyltetrahydrohomofolate (5) (IC50 = 1.1 x 10(-5) is 200 times weaker than 4 against L. casei GAR formyltransferase. However, 11-deaza-10-methyldihydrohomofolate (32) is more inhibitory (IC50 = 5.5 x 10(-7) M) than 5 or 30. None of the compounds showed inhibition of L. casei aminoimidazolecarboxamide ribonucleotide (AICAR) formyltransferase, dihydrofolate reductase, or thymidylate synthase. The dihydro derivatives 31 and 32 are 5% as active as dihydrofolate as substrates for L. casei dihydrofolate reductase. Compound 4 showed moderate inhibition of the growth of L. casei, Streptococcus faecium, MOLT-4 cells, and MCF-7 human breast adenocarcinoma cells.
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PMID:Folate analogues. 31. Synthesis of the reduced derivatives of 11-deazahomofolic acid, 10-methyl-11-deazahomofolic acid, and their evaluation as inhibitors of glycinamide ribonucleotide formyltransferase. 249 18

The DNA polymerase alpha inhibitor, aphidicolin, was employed to synchronize large-scale suspension cultures (10(9) cells) of murine L1210 leukemia cells. On the basis of the doubling time and cell cycle distribution for logarithmically growing L1210 cells, a synchronization protocol was devised involving a temporal sequence of two 12-h exposures to aphidicolin, separated by an 6-h interval in drug-free medium. After the second aphidicolin treatment, resuspension of cells into drug-free medium resulted in the rapid onset of DNA synthesis as assessed by [3H]thymidine incorporation and DNA fluorescence with flow cytometry. By 6 h after aphidicolin removal, the cells progressed into the G2-M phase and cell division was initiated. DNA synthesis was minimal during this time and remained low through 9 h when the majority of the cells were in G1 phase. Only low levels of cytotoxicity were observed when L1210 cells were treated with aphidicolin in this fashion. The levels of both thymidylate synthase and dihydrofolate reductase were relatively constant during cell cycle transit, following release from the aphidicolin blockade. Similarly, the levels of the corresponding mRNA transcripts for these enzymes, measured by Northern blot hybridizations, remained essentially unchanged through most of the cell cycle, increasing approximately twofold only as the cells entered G1 phase. Whereas intracellular dihydrofolate reductase catalytic activity was relatively unchanged throughout the cell cycle, as reflected in the metabolism of [3H]folic acid to reduced folate forms, a marked increase in in situ thymidylate synthase activity occurred during S phase that was tightly linked to the rate of DNA synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A method for the synchronization of cultured cells with aphidicolin: application to the large-scale synchronization of L1210 cells and the study of the cell cycle regulation of thymidylate synthase and dihydrofolate reductase. 251 11

Folate analogs that inhibit dihydrofolate reductase result in only partial interconversion of tetrahydrofolate cofactors to dihydrofolate with preservation of the major portion of reduced cellular folate cofactors in L1210 leukemia cells. One possible explanation for this phenomenon is that low levels of dihydrofolate polyglutamates that accumulate in the presence of antifolates block thymidylate synthase to prevent depletion of reduced folate pools. This paper correlates biochemical analyses of rapid interconversions of radiolabeled folates and changes in purine and pyrimidine biosynthesis in L1210 murine leukemia cells exposed to antifolates with network thermodynamic computer modeling to assess this hypothesis. When cells are exposed to 1 microM trimetrexate there is an almost instantaneous inhibition of [3H] deoxyuridine or [14C]formate incorporation into nucleotides which is maximal within 5 min. This is associated with a rapid rise in cellular dihydrofolate (t1/2 approximately 1.5 min), which reaches a steady state that represents only 27.9% of the total folate pool. Pretreatment of cells with fluorodeoxyuridine, to inhibit thymidylate synthase by about 95% followed by trimetrexate only slows the rate of folate interconversion (t1/2 approximately 25 min) but not the final dihydrofolate level achieved. This is consistent with computer simulations which predict that direct inhibition of thymidylate synthase by 97, 98, and 99% should increase the half-time of dihydrofolate rise after trimetrexate to 40, 60, and 124 min, respectively, but the final level achieved is always the same as in cells with normal thymidylate synthase activity. The data reflect the high degree of catalytic activity of thymidylate synthase relative to tetrahydrofolate cofactor pools in the cells and the enormous extent of inhibition of this enzyme that is necessary to slow the rate of folate interconversions after addition of antifolates. The model predicts, and the data demonstrate, that virtually any residual thymidylate synthase activity will permit the interconversion of all tetrahydrofolate cofactors available for oxidation to dihydrofolate when dihydrofolate reductase activity is abolished, but the rate of interconversion will be slowed. Additional simulations indicate that the time course of cessation of tetrahydrofolate-dependent purine and pyrimidine biosynthesis after antifolates in these cells can be accounted for solely on the basis of tetrahydrofolate cofactor depletion alone. These data exclude the possibility that direct inhibition of thymidylate synthase by dihydrofolate polyglutamates, or any other intracellular folates that accumulate in cells after antifolates, can account for the rapid but partial interconversion of reduced folate cofactors to dihydrofolate.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Folate-pool interconversions and inhibition of biosynthetic processes after exposure of L1210 leukemia cells to antifolates. Experimental and network thermodynamic analyses of the role of dihydrofolate polyglutamylates in antifolate action in cells. 252 54

Immature myeloid precursor cells were preferentially selected from normal human bone marrow by using immune rosette techniques that employed monoclonal antibodies against mature granulocytes, monocytes, T and B lymphocytes, and erythroid precursors (Mo5, M3, OKT3, B1, and EP1, respectively). We examined the formation, retention, and cytotoxic effects of methotrexate (MTX) polyglutamates (MTX-PGs) in these purified myeloid precursor cells. After 1- and 24-h exposures to MTX, with thymidine and deoxyinosine as rescue, the intracellular MTX-PG profile was examined by high-pressure liquid chromatography. Efflux patterns of MTX-PGs were also studied after additional 1- and 24-h incubations in drug-free media. Cytotoxic effects of retained MTX-PGs on bone marrow myeloid precursors were examined by colony formation in drug-free semisolid agar. Normal myeloid precursor cells converted MTX to MTX-PGs in a concentration- and time-dependent manner, preferentially retaining MTX-PGs with three to five glutamyl moieties. At low concentrations of MTX (1 microM), MTX-PG formation was insufficient to maintain saturation of the target enzyme dihydrofolate reductase after removal of drug from the incubation medium, and there was no decrease in myeloid colony formation. At higher concentrations of MTX (10 microM), formation of higher molecular weight polyglutamates was sufficient to allow for 24-h saturation of intracellular binding capacity after removal of extracellular drug and resulted in a 35% reduction in the formation of colony-forming units in culture. Comparison of MTX metabolism in normal bone marrow cells and the MTX-sensitive HL-60 human leukemia cell line showed twofold greater PG formation by these tumor cells after 24-h exposure to 1 or 10 microM MTX, and a marked (greater than 30-fold) increase in cytotoxicity for the HL-60 cells as compared with normal myeloid precursors, suggesting that the MTX polyglutamation may be important to its selective antitumor action.
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PMID:Formation of methotrexate polyglutamates in purified myeloid precursor cells from normal human bone marrow. 257 75

Gamma-fluoromethotrexate (FMTX) is a poorly glutamylated mimic of the anti-cancer drug methotrexate (MTX) which is useful in studies of the roles of MTX poly-gamma-glutamates. A second chiral center occurs at C-4 of the 4-fluoroglutamate used to synthesize FMTX and, as a consequence, FMTX occurs as both D,L-erythro and D,L-threo diastereomers. The interaction of both diastereomers with intracellular dihydrofolate reductase has been examined in the human leukemia cell line CCRF-CEM, using a centrifugal column technique. Measurements of the rate at which radiolabel was displaced from [3H]MTX-saturated dihydrofolate reductase following suspension of the cells in unlabeled drug indicated that MTX and the erythro isomer of FMTX gave essentially the same rate of displacement; the rate of displacement by the threo isomer of FMTX was slower, but the interpretation of these data was ambiguous since the rate of transport of threo-FMTX may have been limiting. In reciprocal experiments in which dihydrofolate reductase was saturated with [3H]erythro-FMTX, the erythro isomer and MTX again behaved equivalently in terms of displacement. When dihydrofolate reductase was saturated with [3H]threo-FMTX, the radiolabel was clearly displaced at a much faster rate than either other radiolabel regardless of whether the displacing agent was MTX or the isomer. These results indicate a distinct stereospecificity for interaction of inhibitor with dihydrofolate reductase in which the threo isomer has a faster off-rate. Of the two FMTX diastereomers, the erythro isomer thus most closely mimics the properties of MTX.
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PMID:Interaction of D, L-erythro- and D,L-threo-gamma-fluoromethotrexate with human leukemia cell dihydrofolate reductase. 259 2


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