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)

Stable expression of a full-length cDNA encoding chicken fast muscle Ca2+ transport ATPase was obtained in a Chinese hamster lung cell line (DC-3F), using a dual-promoter expression vector (pH beta FCaA3) in which the ATPase was cloned downstream of a human beta-actin gene promoter, and a mutant dihydrofolate reductase cDNA (A3/DHFR) was cloned downstream of an SV40 promoter-enhancer. Owing to its essentially normal catalytic activity and modest (20-fold) resistance to the antifolate methotrexate (MTX), the A3/DHFR mutant enzyme served as an efficient dominant selection marker in transfected cell populations challenged with MTX and, within a broad range of drug concentrations, allowed subsequent amplification and overexpression of vector sequences. In stable transfectants, the expressed ATPase was targeted to intracellular membranes, and the microsomal fractions from those cells exhibited high rates of Ca2+ transport. In comparative experiments using transient expression in COS1 cells, the level of ATPase per transfected cell was greater, but less than 5% of the transfected population exhibited ATPase expression. Furthermore, as opposed to the stable lines, the transiently expressing cells could not be propagated. Overall, the yield of ATPase was 12-16 and 4-6 micrograms per milligram of microsomal protein in the stable and the transient expression systems, respectively. The advantages of the stably transfected cell lines therefore lie in the homogeneity of ATPase expression and its distribution in cells and microsomes, in the large yield of microsomes obtained by continuous cell propagation, and in the reproducible functional characteristics of the microsomes. Moreover, the microsomes derived from stably transfected cell lines provide a convenient system for studies of Ca2+ transport and ATPase partial reaction, eliminating the need to conduct repetitive transient transfections to obtain sufficient amounts of enzyme for functional studies.
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PMID:Coupled expression of Ca2+ transport ATPase and a dihydrofolate reductase selectable marker in a mammalian cell system. 138 39

Nuclear matrix organizes the mammalian chromatin into loops. This is achieved by binding of nuclear matrix proteins to characteristic DNA landmarks in introns as well as proximal and distal sites flanking the 5' and 3' ends of genes. Matrix anchorage sites (MARs), origins of replication (ORIs), and homeotic protein binding sites share common DNA sequence motifs. In particular, the ATTA and ATTTA motifs, which constitute the core elements recognized by the homeobox domain from species as divergent as flies and humans, are frequently occurring in the matrix attachment sites of several genes. The human apolipoprotein B 3' MAR and a stretch of the Chinese hamster DHFR gene intron and human HPRT gene intron shown to anchor these genes to the nuclear matrix are mosaics of ATTA and ATTTA motifs. Several origins of replication also share these elements. This observation suggests that homeotic proteins which control the expression level of many genes and pattern formation during development are components of the nuclear matrix. Thus, the nuclear matrix, known as the site of DNA replication, might sculpture the crossroads of the differential activation of origins during development and S-phase and the control of gene expression and pattern formation in embryogenesis.
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PMID:Homeotic protein binding sites, origins of replication, and nuclear matrix anchorage sites share the ATTA and ATTTA motifs. 142 78

The Chinese hamster cell line, DC-3F, is heterozygous at the DHFR locus, and each allele can be distinguished on the basis of a unique DNA restriction pattern, protein isoelectric profile and in the abundancy of the DHFR mRNAs it expresses. Although each allele produces four transcripts, 1000, 1650 and 2150 nucleotides [corrected] in length, the relative distribution of these RNAs differs for each; the 2150 nt mRNA represents the major (60%) species generated from one allele, while the 1000 nt mRNA is the major species generated from the other. The allele that predominantly expresses the 2150 nt transcript is preferentially overexpressed when DC-3F cells are subjected to selection in methotrexate. We have analyzed the 3' ends of both DHFR alleles and have found that the three major mRNAs arise by readthrough of multiple polyadenylation signals. A four base deletion in one allele changes the consensus polyadenylation signal AAUAAA to AAUAAU, resulting in the utilization of a cryptic polyadenylation signal lying 21 bp upstream. Surprisingly, this mutation in the third polyadenylation signal appears to affect not only the utilization of this signal, but also the efficiency with which the first signal, located 1171 bp upstream from the third site, is utilized.
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PMID:Differential utilization of poly (A) signals between DHFR alleles in CHL cells. 148 Apr 80

A technique is described for the isolation and purification of intact, respiratory-competent mitochondria from Schizosaccharomyces pombe. The purified mitochondria are capable of oxidizing NADH and succinate as respiratory substrates, indicating the presence of succinate dehydrogenase and an NADH dehydrogenase located on the outer surface of the inner membrane. Mitochondria display good respiratory control with an ADP/O ratio of < 2. Respiratory activity is linearly dependent upon the redox poise of the quinone pool, suggesting the presence of an unbranched respiratory pathway to molecular oxygen. Immunogold labelling using antisera raised against mitochondrial HSP70 proteins (SSP1, SSC1 and PHSP1) from three different species, namely S. pombe, Saccharomyces cerevisiae and the plant Pisum sativum respectively, has been used to investigate the presence and ultrastructure of the mitochondria isolated by this procedure. The immunocytochemistry was carried out using cells containing wild-type levels of SSP1 protein and cells over-expressing the protein. These results also demonstrate the capacity of mitochondria to import increased levels of protein in vivo. In vitro import experiments using COXIV-DHFR indicate that purified S. pombe mitochondria can efficiently import this precursor, and that protein translocation is dependent upon an oxidizable substrate and a membrane potential.
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PMID:Schizosaccharomyces pombe mitochondria: morphological, respiratory and protein import characteristics. 148 70

A comparative study of quantitative structure-activity relationships involving diaminopyrimidines as DHFR inhibitors using regression analysis and the neural-network approach suggests that the neural network can outperform traditional methods. The technique permits the highlighting the functional form of those parameters which have an influence on the biological activity.
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PMID:Application of neural networks: quantitative structure-activity relationships of the derivatives of 2,4-diamino-5-(substituted-benzyl)pyrimidines as DHFR inhibitors. 150 6

The 2.2-A crystal structure of chicken liver dihydrofolate reductase (EC 1.5.1.3, DHFR) has been solved as a ternary complex with NADP+ and biopterin (a poor substrate). The space group and unit cell are isomorphous with the previously reported structure of chicken liver DHFR complexed with NADPH and phenyltriazine [Volz, K. W., Matthews, D. A., Alden, R. A., Freer, S. T., Hansch, C., Kaufman, B. T., & Kraut, J. (1982) J. Biol. Chem. 257, 2528-2536]. The structure contains an ordered water molecule hydrogen-bonded to both hydroxyls of the biopterin dihydroxypropyl group as well as to O4 and N5 of the biopterin pteridine ring. This water molecule, not observed in previously determined DHFR structures, is positioned to complete a proposed route for proton transfer from the side-chain carboxylate of E30 to N5 of the pteridine ring. Protonation of N5 is believed to occur during the reduction of dihydropteridine substrates. The positions of the NADP+ nicotinamide and biopterin pteridine rings are quite similar to the nicotinamide and pteridine ring positions in the Escherichia coli DHFR.NADP+.folate complex [Bystroff, C., Oatley, S. J., & Kraut, J. (1990) Biochemistry 29, 3263-3277], suggesting that the reduction of biopterin and the reduction of folate occur via similar mechanisms, that the binding geometry of the nicotinamide and pteridine rings is conserved between DHFR species, and that the p-aminobenzoylglutamate moiety of folate is not required for correct positioning of the pteridine ring in ground-state ternary complexes. Instead, binding of the p-aminobenzoylglutamate moiety of folate may induce the side chain of residue 31 (tyrosine or phenylalanine) in vertebrate DHFRs to adopt a conformation in which the opening to the pteridine binding site is too narrow to allow the substrate to diffuse away rapidly. A reverse conformational change of residue 31 is proposed to be required for tetrahydrofolate release.
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PMID:Crystal structure of chicken liver dihydrofolate reductase complexed with NADP+ and biopterin. 151 Sep 19

Dihydrofolate reductase (DHFR, EC 1.5.1.3) is an enzyme involved in the metabolism of nucleic acids; it is also an important target for folate antagonists such as methotrexate (MTX). The distribution and expression of DHFR both in human HeLa BU-25 cell line and in methotrexate-resistant (MTX-R) variant, deriving from the human VA2-B cell line (having the DHFR gene amplified) was studied by tetrazolium salt method and by flow cytometric analysis. The immunohistochemical labelling of DHFR was achieved by using the streptavidinbiotinilated complex technique. DHFR activity was low in the human HeLa BU-25 cell line, while it was very high in the MTX-R cell line; the activity level increased with the increasing concentration of the MTX. The results obtained with cytochemical and immunohistochemical technique were compared. These findings showed that the hyperproduction of DHFR is strictly related with the cells having the DHFR gene amplified. Since MTX resistance is a common finding in the cells of patients with acute leukaemia, these studies may be extended to tumour-bearing patients at onset and following chemotherapy with methotrexate.
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PMID:Immunohistochemistry of dihydrofolate reductase in methotrexate-sensitive and -resistant human cell lines by flow cytometry: a comparison with the cytochemical tetrazolium salt method. 152 71

To test the relationship between DMs and drug resistance in newly established AML cell lines, KY821, and its clone KY821A3, the latter had lost DMs during cloning, were cultured in increasing concentrations of MTX. KY821 became resistant against 2 x 10(-4) M MTX, whereas KY821A3 did against 2 x 10(-5) M MTX in a same period. Enhanced enzyme activities of DHFR were correspondent to the increased DMs numbers and DHFR gene amplification in both resistant clones. The amplified DHFR gene was located on DMs by in situ hybridization. These data indicated that the presence of DMs in KY821 would facilitate the acquisition of drug resistance.
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PMID:A new myeloblastic leukemia cell line with double minute chromosomes. Induction of methotrexate resistance and dihydrofolate reductase gene amplification. 156 Jun 71

Exogenous purines (greater than or equal to 10(-5)M) can modulate the cytotoxicity of methotrexate (MTX) in cultured cells, protecting cells at low MTX concentrations (less than or equal to 8 x 10(-8) M) and markedly potentiating its effect at higher concentrations. The ability of hypoxanthine (HX) to modulate the effects of two antifolates-ICI 198583 (an inhibitor of thymidylate synthetase) and piritrexim (PTX, a lipophilic inhibitor of DHFR)-was investigated using cultured mouse leukaemic cells, L1210. HX (10(-4) M) was found to potentiate only the cytotoxicity of DHFR inhibitors (MTS and PTX), increasing cell kill by 20-70 fold to the level achieved by an equivalent concentration (10(-5) M) of ICI 198583 alone. Agarose gel electrophoresis of DNA extracted from cells exposed to antifolates for 24 h demonstrated that the chromatin was cleaved into multimers of 200 base pairs. This pattern of DNA cleavage indicates cell death via apoptosis. The degree of DNA fragmentation was found to be closely linked to cytotoxicity. DNA fragmentation increased from 50% in cells treated with 10(-5) M MTX or PTX to 70% when HX was added with the drugs, a level achieved by 10(-5)M ICI 198583 alone. HX potentiation of cytotoxicity was correlated with a substantial increase in dATP in conjunction with low dTTP pools. The specific potentiation of DHFR inhibitors by HX may be due to their inhibition of purine synthesis with a concurrent rise in PRPP levels. Addition of HX with MTX substantially raised intracellular purine levels via the salvage pathway as indicated by ribonucleotide pool measurements. ICI 198583, on the other hand, stimulated de novo purine synthesis with or without added HX. Treatment with MTX plus HX or ICI 198583 (with or without HX) caused a reduction of dTTP pools to 8% of untreated control and excess dATP accumulation. The subsequent elevation (to 300% of control) of the dATP pool may provide a signal for endonucleolytic fragmentation of DNA and subsequent cell death.
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PMID:DNA fragmentation, dATP pool elevation and potentiation of antifolate cytotoxicity in L1210 cells by hypoxanthine. 156 58

Cloned parasites of the FCR3 strain of Plasmodium falciparum that survived treatment with either mitomycin C or ethidium bromide were grown and subcloned. The chromosomes of 10 cloned isolates from each population were analysed by contour-clamped homogenous electric field gel electrophoresis. Eight of 10 isolates from the mitomycin C-treated population contained a detectable polymorphic chromosome change while none of the isolates from the ethidium bromide-treated population did. One of the polymorphic changes involved chromosome #4. A pyrimethamine resistant derivative of FCR3, FCR3-D5, that had previously been shown to contain a single nucleotide change in the dihydrofolate reductase-thymidylate synthase (DHFR-TS) gene but no detectable chromosome polymorphisms, was sequentially treated with mitomycin C and a higher concentration of pyrimethamine than the strain had previously been shown to be resistant to in order to determine if there was a correlation between the selection of chromosome #4 polymorphisms and the applied selective pressure. Most of the cloned survivors of this treatment were found to contain chromosome polymorphisms that involved chromosome #4, the chromosome on which the DHFR-TS gene is located. The polymorphic changes were usually different in the different isolates. The selection of mitomycin C-treated, pyrimethamine resistant strains with chromosome #4 polymorphisms will be discussed.
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PMID:An examination of the mitomycin C induction of chromosome polymorphisms in cultures of Plasmodium falciparum. 157 78

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