EC:1.5.1.3 - FACTA Search

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Query: EC:1.5.1.3 (dihydrofolate reductase)
5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanisms of acquired resistance to MTX were studied in P388 murine leukemia cell lines that were sensitive or resistant to ADR. The rate of MTX accumulation in ADR-sensitive cells that have acquired resistance to MTX was found to be lower than that measured in cells that were sensitive to both drugs. Furthermore, in contrast to drug-sensitive cells, in the ADR-sensitive MTX-resistant cells, most of the intracellular MTX (86.2%) was bound and MTX polyglutamation was not detected. The initial rate of MTX accumulation in cells that were resistant to both drugs was comparable to that measured in cells that were sensitive to both drugs or that were resistant only to ADR. However, in the cells that were resistant to both drugs, the rate of MTX accumulation was maintained at its initial level for a period that was considerably longer than that found in the other cell lines. After 3 h of exposure to MTX, the accumulation of MTX in cells that were resistant to both drugs was fourfold higher than that measured in cells that were sensitive to both drugs. Furthermore, while 65 to 70% of the intracellular MTX was free, in cells sensitive to both drugs, or resistant only to ADR, the corresponding value in cells that were resistant to both drugs was less than 1.5%, and a much lower proportion of the MTX was polyglutamated. The sensitivity to TMQ of ADR-sensitive, MTX-resistant cells was similar to that found in cells that were sensitive to ADR and MTX. However, ADR-resistant cells, sensitive or resistant to MTX, were markedly resistant to TMQ. The sensitivity of ADR-resistant MTX-sensitive cells to TMQ was restored by the presence of 10 microM verapamil. Such an effect was not observed in cells resistant to both drugs. It is suggested that P388 cells that have previously acquired resistance to ADR, when now selected by MTX, retain the MTX-transport system (in contrast to ADR-sensitive, MTX-resistant cells) and become resistant to MTX by increasing the activity of DHFR. The results obtained in ADR-resistant cells also suggested that resistance to TMQ was part of the multidrug resistance phenomenon.
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PMID:Mechanism of acquired resistance to methotrexate in P388 murine leukemia cells and in their doxorubicin-resistant subline. 297 48

The Moloney leukemia virus (M-MuLV) genome was introduced into undifferentiated teratocarcinoma cells by transfection of a plasmid with the virus genome linked to pSV2neo, which carries a bacterial drug resistance gene, neo, or by cotransfection with pSV2neo. In the resulting cells, the M-MuLV genome remained hypomethylated, but its expression was suppressed in cells in an undifferentiated state. The pattern of DNA methylation of the viral genome remained unchanged when the cells were induced to differentiate into epithelial tissues. However, spontaneous M-MuLV expression was detected with differentiation of the cells. To determine to what extent the viral long terminal repeat (LTR) was responsible for this suppression in undifferentiated cells, I constructed plasmids in which neo was placed under the control of the promoter sequence of the dihydrofolate reductase gene or the M-MuLV LTR, and compared the biological activities of the plasmids in Ltk- cells and in undifferentiated teratocarcinoma cells. In Ltk- cells, these plasmids were highly efficient in making the cells resistant to selection by G418. However, in undifferentiated teratocarcinoma cells, the M-MuLV LTR promoted neo gene expression at only 10% of the expected efficiency, as compared with the expression of the neo gene under the control of the simian virus to or dihydrofolate reductase promoter. Thus, the mechanisms of gene regulation are not the same in undifferentiated and differentiated teratocarcinoma cells.
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PMID:Suppression of the hypomethylated Moloney leukemia virus genome in undifferentiated teratocarcinoma cells and inefficiency of transformation by a bacterial gene under control of the long terminal repeat. 301 27

Altered mouse dihydrofolate reductase gene (DHFRR) was expressed in murine cells using Abelson murine leukemia provirus genome as a prototype vector. A cDNA clone of DHFRR was inserted into a plasmid structure containing retroviral transcriptional as well as packaging signals. The recombinant plasmid was transfected into psi-2 ecotropic cells and the transient virus was used to infect amphotropic PA-12 cells. Recombinant virus (ABL-DHFRR) was detected in the culture medium of transfected PA-12 cells and was free of helper virus. The ABL-DHFRR was capable of conferring methotrexate (MTX) resistance to a variety of cells in culture. The titer of ABL-DHFRR virus was at least tenfold higher than other DHFR retroviruses. The ABL-DHFRR virus titer was increased by selection at increasing concentrations of MTX. The presence of the DHFRR in the virus-infected cells was confirmed by assays which showed reduced inhibition of enzyme activity by MTX. A helper-virus-free, amphotropic, high-titer retrovirus containing the altered DHFR was obtained which may be of use as a dominant selectable marker in infecting hematopoietic progenitor cells.
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PMID:Development of an amphotropic, high-titer retrovirus vector expressing the dihydrofolate reductase gene and conferring methotrexate resistance. 303 Aug 94

The synthesis of the 5,10-methylene analogue of 5,6,7,8-tetrahydro-8,10-dideazaminopterin, a potential dual inhibitor of dihydrofolate reductase (DHFR) and thymidylate synthase (TS) enzymes, is described. The dimethyl ester of 10-carboxy-4-amino-4-deoxy-8,10-dideazapteroic acid was converted to the tetrahydro derivative by hydrogenation. Thermally induced cyclization of the 10-carbomethoxy and the 5-NH groups afforded the 5,10-carbonyl analogue. Reduction of the lactam with borane readily yielded the key 5,10-methylene-4-amino-4-deoxy-8,10-dideazatetrahydropteroic acid methyl ester. Saponification of the benzoate ester and coupling with L-glutamate concluded the synthesis. The title compound was a modest inhibitor of growth in folate-dependent bacteria. Streptococcus faecium and Lactobacillus casei, but inhibition of DHFR or TS derived from L. casei was poor. The compound was also a weak inhibitor of DHFR derived from L1210 murine leukemia and was a weak inhibitor of L1210 growth in culture.
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PMID:Synthesis and antifolate properties of 5,10-methylenetetrahydro-8,10-dideazaminopterin. 309 34

Analogues of methotrexate (MTX) with strong alkylating activity were prepared by replacing the L-glutamate side chain with N omega-haloacetyl derivatives of L-lysine and L-ornithine. Haloacetylation was accomplished in 30-40% yield by reaction of the preformed L-lysine and L-ornithine analogues of MTX with p-nitrophenyl bromoacetate or chloroacetate in aqueous sodium bicarbonate at room temperature. All four haloacetamides were potent inhibitors in spectrophotometric assays measuring noncovalent binding to purified dihydrofolate reductase (DHFR) from L1210 cells. In experiments designed to measure time-dependent inactivation of DHFR from L1210 cells and Candida albicans, the N epsilon-(bromoacetyl)-L-lysine and N delta-(bromoacetyl)-L-ornithine analogues gave results consistent with covalent binding, whereas N epsilon- and N delta-chloroacetyl analogues did not. The N delta-(bromoacetyl)-L-ornithine analogue appeared to be the more reactive one toward both enzymes. Amino acid analysis of acid hydrolysates of the L1210 enzyme following incubation with the bromoacetamides failed to demonstrate the presence of a carboxymethylated residue, suggesting that alkylation had perhaps formed an acid-labile bond. In growth inhibition assays with L1210 cultured murine leukemia cells, the four haloacetamides were all more potent than their nonacylated precursors but less potent than MTX. The greater than 40,000-fold MTX-resistant mutant cell line L1210/R81 was only partly cross-resistant to the haloacetamides. An analogue of MTX with acivicin replacing glutamate was a potent inhibitor of DHFR from chicken liver and L1210 cells but was 200 times less potent than MTX against L1210 cells in culture.
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PMID:Methotrexate analogues. 30. Dihydrofolate reductase inhibition and in vitro tumor cell growth inhibition by N epsilon-(haloacetyl)-L-lysine and N delta-(haloacetyl)-L-ornithine analogues and an acivicin analogue of methotrexate. 311 97

The toxicity of antifolate drug therapy on microenvironmental function of hemopoietic marrow stromal cells may be critical enough to justify the development of a simple cell culture model to appraise the dihydrofolate reductase (DHFR)/tetrahydrofolate dehydrogenase (EC 1.5.1.3) (4HFDH) enzymic system in individual stromal cells. The localization and pattern of expression of 4HFDH/DHFR in cultured bone marrow stromal cells were studied in situ in morphologically identifiable cells. The 4HFDH/DHFR expression varies quantitatively and qualitatively according to cell types and thus constitutes specific phenotypic patterns for fibroblastic stromal cells, endothelial cells, monocyte-macrophages, and osteoclast-like cells. Data indicate a good correlation between the labeling of the enzymic expression and the resistance of cells to methotrexate treatment. This conclusion is also supported by similar features shown by cell sublines bearing multiple DHFR gene copies. Levels of 4HFDH/DHFR expression in marrow stromal cells should provide useful markers underlining the effects of cytostatic drugs used in chemotherapy (for example, methotrexate injuries or resistance). The method can be applied to isolated cells, stromal colonies (fibroblast CFU), or whole adherent layers from marrow cultures. Moreover, with this method, enzymic reactions can be carried out in situ and visual correlations between a supportive microenvironment (hemopoietic foci) and the 4HFDH/DHFR levels on the stromal adherent layer are possible.
Leukemia 1988 Nov
PMID:In vitro patterns of enzymic tetrahydrofolate dehydrogenase (EC 1.5.1.3) expression in bone marrow stromal cells. 318 16

A series of folate analogs containing ornithine instead of glutamate was synthesized and tested for inhibition of folylpolyglutamate synthetase (FPGS) and other folate-dependent enzymes of human leukemia cell lines. Reduced derivatives of 2-amino-4-oxo-10-methyl-pteroyl-ornithine had dramatically increased inhibitory potency against FPGS compared to the oxidized parent. The amino-pterin analog (2,4-diamino-pteroylornithine) was a potent inhibitor of both dihydrofolate reductase and FPGS. It was a much more potent linear competitive inhibitor of human FPGS than the corresponding methotrexate derivative previously described (Ki = 0.15-0.26 and 3 microM respectively). A quinazoline folate analog, 2-amino-4-oxo-5,8-dideazapteroyl-ornithine, was a relatively poor inhibitor of isolated dihydrofolate reductase and thymidylate synthase; however, it is the most potent human FPGS inhibitor identified to date (Ki = 100-150 nM). Because of the lack of appreciable interaction with other folate-dependent enzymes, structures incorporating the 2-amino-4-oxo-5,8-dideazapteroate nucleus may thus lead to selective inhibition of FPGS. Substitution of ornithine for glutamate caused a profound decrease in cytotoxic potency for these analogs; this was apparently the result of poor transport. Together with earlier studies, these data indicate that the potency of FPGS inhibition by an analog containing ornithine closely parallels the relative substrate activity of its glutamate-containing counterpart. The substitution of ornithine apparently does not perturb the pterin specificity of FPGS. The close parallel between substrate and inhibitor specificity may thus allow the use of currently available structure-activity studies on FPGS to design more potent and more selective inhibitors of FPGS.
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PMID:Structural specificity of inhibition of human folylpolyglutamate synthetase by ornithine-containing folate analogs. 319 Jul 39

A series of 5,8-dideaza analogues of folic acid, isofolic acid, aminopterin, and isoaminopterin were evaluated for inhibition of thymidylate synthase, TS, from mouse L1210 leukemia cells with 10-propargyl-5,8-dideazafolic acid, CB3717, 4a, as the reference inhibitor. These compounds were also tested as inhibitors of human dihydrofolate reductase, DHFR, obtained from WIL2 cells. None of the analogues studied were as potent as 4a toward TS; however, 9-methyl-5,8-dideazaisoaminopterin, 6d, was only 2.5-fold less effective. Compound 4a was prepared by direct alkylation of the di-tert-butyl ester of 5,8-dideazafolic acid followed by hydrolysis of the resulting diethyl ester, which resulted from concomitant transesterification. It was found to be identical with a sample of 4a prepared by earlier methodology by using a variety of spectroscopic techniques. Its isomer, 9-propargyl-5,8-dideazaisofolic acid, 4b, which was synthesized by an analogous approach, was found to be dramatically less inhibitory toward TS than 4a. Each of the 2,4-diamino derivatives, including those possessing an allyl or propargyl group at N9, was an excellent inhibitor of DHFR, having a level of potency similar to that of methotrexate, MTX. However, many of these 5,8-dideazaaminopterin analogues were far more inhibitory toward TS than MTX.
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PMID:Inhibition of murine thymidylate synthase and human dihydrofolate reductase by 5,8-dideaza analogues of folic acid and aminopterin. 333 15

Five heretofore undescribed analogues of methotrexate (MTX) and aminopterin (AMT) were synthesized and tested as dihydrofolate reductase (DHFR) inhibitors and tumor cell growth inhibitors. The meta isomer of AMT was obtained from 2,4-diamino-6-(bromomethyl)pteridine and m-(aminobenzoyl)-L-glutamic acid, while the ortho isomer was obtained via the same route by using alpha-methyl gamma-tert-butyl o-(aminobenzoyl)-L-glutamate instead of the free acid. Analogues of MTX and AMT containing a double bond in the side chain were prepared from dimethyl D,L-2-amino-4-hexenedioate and 4-amino-4-deoxy-N10-methylpteroic acid and 4-amino-4-deoxy-N10-formylpteroic acid, respectively. Finally, a positional isomer of MTX with the CH2CH2COOH moiety moved from the alpha-carbon to the adjacent carboxamide nitrogen was synthesized from 3-[N-(carboxymethyl)amino]propanoic acid diethyl ester and 4-amino-4-deoxy-N10-methylpteroic acid. The positional isomers of AMT were weak DHFR inhibitors and showed very little growth-inhibitory activity against L1210 murine leukemia cells or the MTX-resistant L1210/R81 mutant line in culture. The MTX and AMT analogues with the CH2CH2COOH moiety replaced by a CH2CH = CHCOOH side chain showed anti-DHFR activity similar to that of the previously described saturated compound N-(4-amino-4-deoxy-N10-methylpteroyl)-L-2-aminoadipic acid, but were less potent than the parent drugs. The MTX analogue with the CH2CH2COOH side chain displaced from C to N was weakly bound to DHFR, confirming the importance of an intact CONH moiety, and showed greatly diminished cell growth inhibitory potency relative to MTX. None of the compounds was a substrate for folylpolyglutamate synthetase (FPGS) from mouse liver. Furthermore, inhibition of folic acid polyglutamylation in vitro at equimolar 500 microM concentrations of drug and substrate was negligible. The structural changes embodied in these five novel compounds are therefore too great for binding to the FPGS active site.
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PMID:Methotrexate analogues. 31. Meta and ortho isomers of aminopterin, compounds with a double bond in the side chain, and a novel analogue modified at the alpha-carbon: chemical and in vitro biological studies. 335 53

Analogues of methotrexate (MTX) and aminopterin (AMT) with aminophosphonoalkanoic, aminoalkanesulfonic, and aminoalkanephosphonic acid side chains in place of glutamate were synthesized and tested as inhibitors of folylpolyglutamate synthetase (FPGS) from mouse liver. The aminophosphonoalkanoic acid analogues were also tested as inhibitors of dihydrofolate reductase (DHFR) from L1210 murine leukemia cells and as inhibitors of the growth of MTX-sensitive (L1210) and MTX-resistant (L1210/R81) cells in culture. The optimal number of CH2 groups in aminophosphonoalkanoic acid analogues of AMT was found to be two for both enzyme inhibition and cell growth inhibition but was especially critical for activity against FPGS. Deletion of the alpha-carboxyl also led to diminished anti-FPGS activity in comparison with previously studied homocysteic acid and 2-amino-4-phosphonobutyric acid analogues. In the aminoalkanesulfonic acid analogues of MTX without an alpha-carboxyl, anti-FPGS activity was low and showed minimal variation as the number of CH2 groups between the carboxamide and sulfonate moieties was changed from one to four. In similar aminoalkanephosphonic acid analogues of MTX, anti-FPGS activity was also low, was comparable for two and three CH2 groups between the carboxamide and phosphonate moieties, and was diminished by monoesterification of the phosphonate group. These effects demonstrate that the alpha-carboxyl group of folate analogues is involved in binding to the active site of FPGS, and that an alpha-carboxyl group should be retained as part of the structure of FPGS inhibitors.
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PMID:Methotrexate analogues. 32. Chain extension, alpha-carboxyl deletion, and gamma-carboxyl replacement by sulfonate and phosphonate: effect on enzyme binding and cell-growth inhibition. 338 29

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