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)

Previous studies from this laboratory established that the rapid but partial interconversion of tetrahydrofolate cofactors to dihydrofolate after exposure of L1210 leukemia cells to antifolates cannot be due to direct feedback inhibition of thymidylate synthase by dihydrofolate or any other endogenous folylpolyglutamates when dihydrofolate reductase activity is abolished by antifolates. Rather, the data suggested this preservation of tetrahydrofolate cofactor pools is likely due to a fraction of cellular folates unavailable for oxidation to dihydrofolate. This paper explores the role of cell cycle phase in L1210 leukemia cells in logarithmic versus stationary phase growth as a factor in the rate and extent of tetrahydrofolate cofactor interconversion to dihydrofolate after exposure of cells to the dihydrofolate reductase inhibitor trimetrexate. The S phase fraction was reduced by inoculating L1210 leukemia cells at high density to achieve a stationary state. Flow cytometric analysis of DNA content indicated that log phase cultures were 53.0% S phase; this decreased to 42.1% at 24 h and 24.1% at 48 h in stationary phase cultures. 5-Bromo-2'-deoxyuridine incorporation into DNA decreased 80 and 96%, while [3H]dUrd incorporation into DNA declined 70 and 95% for stationary cultures at 24 and 48 h, respectively, as compared with the log phase rates. Log phase cells interconverted 28.0% of the total pool of radiolabeled folates to dihydrofolate with a half-time of approximately 30 s. Stationary cells at 24 h interconverted 20.4% of the total folate pool with a t1/2 of approximately 3 min, and at 48 h, net interconversion to dihydrofolate decreased further to 12.1% with a t1/2 of approximately 6 min. The decrease in the extent of tetrahydrofolate cofactor interconversion to dihydrofolate in stationary phase cells was directly proportional to the decrease in the S phase fraction determined by total DNA content. This suggests that tetrahydrofolate cofactor depletion occurs only in S phase cells. The much larger drop in [3H]dUrd and 5-bromo-2'-deoxyuridine incorporation into DNA in comparison with the decline in the S phase fraction measured by DNA content along with the reduced rate of tetrahydrofolate cofactor interconversion to dihydrofolate indicates that the rate of DNA synthesis is decreased in S phase cells in stationary cultures. Network thermodynamic simulations suggest that a reduction in the number of S phase cells and their thymidylate synthase catalytic activity would account for the observed decrease in the rate and extent of interconversion of tetrahydrofolate cofactors to dihydrofolate after trimetrexate in stationary phase cultures.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Rate and extent of interconversion of tetrahydrofolate cofactors to dihydrofolate after cessation of dihydrofolate reductase activity in stationary versus log phase L1210 leukemia cells. 182 99

Following exposure of L1210 leukemia cells to antifolates, tetrahydrofolate-dependent purine and pyrimidine biosyntheses are blocked despite the presence of the major portion of tetrahydrofolate cofactors. Previous studies from this laboratory demonstrated that this cannot be due to direct inhibition of thymidylate synthase by dihydrofolate polyglutamates or other endogenous folates and suggested that this phenomenon is due to compartmentation of tetrahydrofolate cofactors unavailable for interconversion and/or oxidation when dihydrofolate reductase activity is abolished by antifolates. The present paper evaluates the possibility that tetrahydrofolate cofactors in subcellular organelles, in particular, mitochondria, are unavailable for oxidation by thymidylate synthase. Particulate and cytosolic fractions were obtained from L1210 cells following homogenization and differential centrifugation. The crude mitochondrial fraction contained 20.1% of the total folate pool and included 5-formyltetrahydrofolate, 10-formyltetrahydrofolate and tetrahydrofolate in proportions similar to intact cells. The cytosolic fraction had an increased proportion of tetrahydrofolate and decreased proportions of 5-formyl- and 10-formyltetrahydrofolate relative to intact cells or the particulate fraction. Exposure of cells to 10 microM trimetrexate for 30 min produced approximately 45% interconversion of tetrahydrofolate cofactors to dihydrofolate in the cytosolic fraction, a level much greater than that observed in whole cell extracts (25-30%), but had no effect on folate pools in the crude mitochondrial fraction. These data indicate that subcellular compartmentation accounts, in part, for the failure to oxidize tetrahydrofolate cofactors to dihydrofolate in the presence of antifolate levels that abolish dihydrofolate reductase activity.
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PMID:Compartmentation of intracellular folates. Failure to interconvert tetrahydrofolate cofactors to dihydrofolate in mitochondria of L1210 leukemia cells treated with trimetrexate. 183 61

We have developed DNA diagnosis using Universal probe system for the rapid detection of Plasmodium falciparum parasite in blood. We chose the DHFR-TS (dihydrofolate reductase-thymidylate synthase) gene as target for detection which are the junction part (410 bp) of and the DHFR part (790 bp). In the parasite, there is only one copy of target sequence, therefore, the target sequences were amplified by PCR (polymerase chain reaction) to increase the sensitivity. Our hybridization method consists of two probes; a primary probe prepared from a chimeric phage-plasmid vector (pUCf1) containing sequence complementary to the target, and a biotin-labeled secondary probe complementary to a portion of the primary probe, which is detected by the BCIP/NBT method. We showed that the 410 bp was more sensitive than the 790 bp as a target of P. falciparum, and the limit of detection was 10(3) parasites in 1 ml human blood using 410 bp junction part. We also constructed double PCR systems using junction part of DHFR-TS gene. By amplification of the 410 bp of the junction part and reamplification of 228 bp of inside sequence of the 410 bp, as little as 10 parasites in 10 microliters human blood was sufficient for specific detection.
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PMID:DNA diagnosis of falciparum malaria. 184 63

The methylation status of the adenine and cytosine residues in the genome of Plasmodium falciparum was studied using restriction enzymes exhibiting differential activity dependent on the methylation state of these residues in their recognition site. The gene coding for the enzyme dihydrofolate reductase-thymidylate synthase was studied for that purpose. No methylated adenine residues were observed in this gene in four strains tested. However, partial methylation of cytosine residues was observed in all strains. This methylation occurred at a specific site of the gene and was of the eukaryotic type, namely at a CpG sequence.
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PMID:Plasmodium falciparum: evidence for a DNA methylation pattern. 185 Nov 1

5,10-Dideazatetrahydrofolate (DDATHF) is an antifolate drug, the cytotoxic effects of which can be fully reversed by hypoxanthine, suggesting that DDATHF exerts its effects by inhibiting de novo purine biosynthesis. ICI198583 is a quinazoline based inhibitor of thymidylate synthase. In this study we examine the interaction between treatment of mouse leukaemic L1210 cells with these drugs. The addition of DDATHF with ICI198583 was correlated with a decrease in ICI198583 cytotoxicity in a dose dependent manner. This protection was associated with a decrease in DNA fragmentation, and a drop in intracellular dATP pools. These results support the hypothesis that inhibitory effects on de novo purine biosynthesis by inhibitors of dihydrofolate reductase may limit cytotoxicity, and indicate that a rise in dATP pools may be an important cytotoxic signal.
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PMID:Inhibition of 2-desamino-2-methyl-10-propagyl-5,8-dideazafolic acid cytotoxicity by 5,10-dideazatetrahydrofolate in L1210 cells with decrease in DNA fragmentation and deoxyadenosine triphosphate pools. 185 63

The intracellular distribution and localization of dihydrofolate reductase-thymidylate synthase of wild type suspension carrot cells was analysed using cytochemical and immunocytochemical techniques; in both resting and growing normal cells (E4) the activity appeared to be predominantly cytoplasmic. The pattern of localization of the enzyme was also analysed during the different phases of the cell cycle. To this end carrot cells were synchronized with aphidicolin (an inhibitor of the alpha-like DNA polymerase which blocks cells at the G1/S boundary) and cycle phases checked by labelled-thymidine incorporation. Protoplasts obtained from cells inhibited with aphidicolin or from cells sampled at different times after the removal of the drug (S and G2 phase), failed to show a nuclear localization of DHFR-TS. These results indicate that in carrot the bifunctional enzyme does not change compartment during the cell cycle. Surprisingly Mtx-resistant cells (E2A2, E2A1C6; overproducing DHFR-TS) showed, irrespective of their physiological state (quiescent or growing), also a relevant nuclear or perinuclear immunofluorescence which could not be detected using cytochemical techniques. The reason of this altered localization is not clear and its possible relation with altered cytophysiological parameters is discussed.
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PMID:Cellular localization of dihydrofolate reductase-thymidylate synthase in carrot cells. 186 64

The bifunctional dihydrofolate reductase-thymidylate synthase (DHFR-TS) of Daucus carota has been further characterized as regards molecular weight, amino acid composition, protease digestion and microsequencing of proteolytic peptides. Data reported in this paper demonstrate that the carrot protein has a calculated Mr of 124,000 thus indicating that, contrarily to what has previously been suggested, it occurs as a dimer of identical subunits. Results of partial amino acid microsequencing show the presence of sequences highly homologous with those of the active sites of both DHFR and TS from other organisms confirming, at the structural level, the bifunctional nature of the carrot protein. As in the case of Leishmania tropica DHFR-TS, incubation of the carrot protein with V8 protease led to a rapid loss of TS activity while retaining that of DHFR. However the pattern of proteolysis did not allow to establish whether the sequence of domains is DHFR-TS as in Leishmania, or vice versa. Low homology of other amino acid sequences, as judged by computer analysis, and absence of common epitopes indicate an apparent divergence between carrot and leishmanian proteins.
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PMID:Proteolytic and partial sequencing studies of the bifunctional dihydrofolate reductase-thymidylate synthase from Daucus carota. 186 69

We describe a transient transfection protocol for cultured Leishmania major promastigotes, utilizing Escherichia coli genes encoding beta-galactosidase and beta-glucuronidase inserted into an expression vector derived from the dihydrofolate reductase-thymidylate synthase locus. Less than 0.1 pg of either reporter enzyme can be detected with a simple fluorimetric assay, and transfection of 10 micrograms of either reporter construct yields activities at least 100-fold over background. Simultaneous introduction of both constructs showed that the activity of each reporter gene was unaffected by the presence of the other, allowing one reporter construct to serve as a control for experimental variability in test gene constructs containing the second reporter gene. These results show that it is feasible to apply transient expression assays to the identification of cis-acting elements of genes encoding nonabundant mRNAs in the genus Leishmania.
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PMID:Simultaneous transient expression assays of the trypanosomatid parasite Leishmania using beta-galactosidase and beta-glucuronidase as reporter enzymes. 190 8

N-(5-[N-(3,4-dihydro-2-methyl-4-oxoquinazolin-6-ylmethyl)-N- methylamino]-2-thenoyl)-L-glutamic acid (ICI D1694) is a water-soluble, folate-based thymidylate synthase (TS) inhibitor designed to be a less toxic and more potent analogue of the clinically tested N10-propargyl-5,8-dideazafolic acid. Inhibition of isolated L1210 TS by ICI D1694 is mixed noncompetitive (although tending toward competitive), with a Ki of 62 nM (Kies = 960 nM). The synthetic gamma-polyglutamates are up to 2 orders of magnitude more potent as inhibitors of TS; e.g., the tetraglutamate (glu4) has a Ki of 1.0 nM (Kies = 15 nM). Although inhibitory activity of ICI D1694 toward rat liver dihydrofolate reductase was similar to that of TS (Ki = 92 nM; competitive inhibition) the polyglutamate derivatives did not show enhanced activity. ICI D1694 was also a very potent inhibitor of L1210 cell growth (50% inhibitory activity = 8 nM). L1210 growth inhibition was not observed in the presence of thymidine, consistent with TS being the locus of action. Folinic acid antagonized L1210 growth inhibition in a competitive fashion such that the highest folinic acid concentration used (25 microM) increased the 50% inhibitory activity 6000-fold. When given as a 4-h delayed "rescue", folinic acid was much less effective in antagonizing growth inhibition. These observations are consistent with folinic acid competing with ICI D1694 for uptake into the cell and/or intracellular polyglutamation. The L1210:1565 cell line, which has greatly impaired reduced-folate/methotrexate transport and thus is resistant to methotrexate, was significantly cross-resistant to ICI D1694 (121-fold), suggesting that ICI D1694 is dependent on this uptake mechanism for good cytotoxic potency in L1210 cells. L1210 cells that were incubated for 4 h with 0.1 microM 3H-ICI D1694 accumulated approximately 1.5 microM intracellular 3H, and the high performance liquid chromatography analysis of the cell extracts demonstrated that 96% of the 3H was associated with the ICI D1694 polyglutamate fractions (principally glu4). Upon resuspension in drug-free medium for 24 h, approximately 75% of the cellular 3H was retained, this being the higher polyglutamate pool (glu4-6). In mice, after a single bolus injection of 10 mg/kg of ICI D1694, TS was inhibited greater than 80% for 24 h in ascitic L1210:NCI cells (as measured by the rate of 3H release from [5-3H]deoxyuridine). ICI D1694 cured the L1210:ICR ascitic tumor in mice at 0.4 mg/kg daily for 5 days (maximum tolerated dose, approximately 50 mg/kg).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:ICI D1694, a quinazoline antifolate thymidylate synthase inhibitor that is a potent inhibitor of L1210 tumor cell growth in vitro and in vivo: a new agent for clinical study. 191 76

Since eucaryotic cell-derived thymidine or thymidine nucleotides are not incorporated into Chlamydia trachomatis DNA, we hypothesized that C. trachomatis must obtain dTTP for DNA synthesis by converting dUMP to dTMP. In most cells, this reaction is catalyzed by thymidylate synthase (TS) and requires 5,10-methylenetetrahydrofolate as a cofactor. We used C. trachomatis serovar L2 and a mutant CHO K1 cell line with a genetic deficiency in folate metabolism as a host for chlamydial growth. This cell line lacks a functional dihydrofolate reductase (DHFR) gene and, as a result, is unable to carry out de novo synthesis of dTTP. C. trachomatis inclusions form normally when DHFR- cells are starved for thymidine 24 h prior to and during the course of infection. When [6-3H]uridine is used as a precursor to label C. trachomatis-infected CHO DHFR- cells, radiolabel is readily incorporated into chlamydia-specific DNA. When DNA from [6-3H]uridine-labelled infected cultures is acid hydrolyzed and subjected to high-performance liquid chromatography analysis, radiolabel is detected in thymine and cytosine nucleobases. By using the DHFR- cell line as a host and [5-3H]uridine as a precursor, we could monitor intracellular C. trachomatis TS activity simply by following the formation of tritiated water. There is a good correlation between in situ TS activity and DNA synthesis activity during the chlamydial growth cycle. In addition, both C. trachomatis-specific DNA synthesis and 3H2O release are inhibited by exogenously added 5-fluorouridine but not by 5-fluorodeoxyuridine. Finally, we demonstrated in vitro TS activity in crude extracts prepared from highly purified C. trachomatis reticulate bodies. The activity is dependent on the presence of methylenetetrahydrofolic acid and can be inhibited with 5-fluoro-dUMP. Taken together, these results indicate that C. trachomatis contains a TS for the synthesis of dTMP.
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PMID:Biochemical evidence for the existence of thymidylate synthase in the obligate intracellular parasite Chlamydia trachomatis. 193 73

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