Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

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

A series of 7 human squamous carcinoma cell lines of the head and neck (HNSCC), grown in standard medium containing high folate concentrations and in "folate-conditioned" medium containing nanomolar concentrations of folates, were all found to be sensitive (IC50: less than or equal to 50 nM) in growth-inhibition studies to methotrexate (MTX) following drug exposure for 7 days. However, when MTX exposure was limited to 24 hr, only 2 out of 7 HNSCC cell lines were sensitive to MTX (IC50: less than 500 nM), 2 were moderately sensitive (IC50: 1-2 microM), and 3 exhibited inherent resistance to MTX (IC50: greater than 250 microM). In these last 3 cell lines, the mechanism of resistance was not correlated with altered membrane transport of MTX or changes in dihydrofolate reductase activity, but rather was associated with a 3-fold lower activity of intracellular folylpolyglutamate synthase (FPGS) activity compared to MTX-sensitive HNSCC cells. The 3 cell lines exhibiting inherent resistance to a short exposure to MTX, however, did not show inherent cross-resistance after exposure for 24 hr to one or more of 3 novel antifolate compounds. These compounds, which appear to be more efficiently transported and polyglutamylated than MTX, include: 10-ethyl-10-deazaaminopterin (10-EdAM), 2-desamino-2-methyl-N10-propargyl-5,8-dideazafolic acid (ICI-198,583), and 5,10-dideazatetrahydrofolic acid (DDATHF). These results indicate that antifolate membrane transport and intracellular FPGS activity are important factors in determining sensitivity or resistance of HNSCC cells to short-term antifolate compound exposures.
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PMID:In vitro activity of novel antifolates against human squamous carcinoma cell lines of the head and neck with inherent resistance to methotrexate. 163 38

L1210-B73 cells, variants of L1210 cells grown in medium containing nanomolar concentrations of folates, express a membrane associated folate binding protein (mFBP) in addition to the classical reduced folate/methotrexate carrier (RF/MTX-carrier) present in L1210 cells grown in standard high folate medium (G. Jansen et al., Cancer Res., 49: 1959-1963, 1989). In this study we used L1210-B73 and L1210 cells as a model system to study the affinity of the RF/MTX-carrier and the mFBP for the natural folate compounds folic acid and 5-formyltetrahydrofolate (5-CHO-THF), as well as a number of antifolate compounds. Furthermore we studied the contribution of the RF/MTX-carrier and the mFBP in membrane transport of these (anti)folates, and finally we analyzed the role of the mFBP and RF/MTX-carrier in the cytotoxic effects of the antifolates. The antifolates used were either inhibitors of dihydrofolate reductase, including methotrexate (MTX) and 10-ethyl-10-deazaaminopterin (10-EdAM), or two folate-based inhibitors of thymidylate synthase, N10-propargyl-5,8-dideazafolic acid (CB3717) and 2-deamino-2-methyl-N10-propargyl-5,8-dideazafolic acid (ICI-198,583). The affinity of the RF/MTX-carrier for natural and antifolate compounds declined in the order 10-EdAM greater than or equal to ICI-198,583 greater than or equal to 5-CHO-THF greater than MTX much greater than CB3717 much greater than folic acid. The mFBP exhibited a high binding affinity for CB3717 and ICI-198,583 but a poor binding affinity for MTX and 10-EdAM. Binding affinities of the mFBP decreased in the order CB3717 greater than or equal to folic acid = ICI-198,583 greater than or equal to 5-CHO-THF much greater than MTX = 10-EdAM. Over 24 h, at 25 nM, [3H]folic acid uptake in L1210-B73 cells was found to proceed for more than 98% via the mFBP. Uptake of [3H]-5-CHO-THF, at 50 nM extracellular concentration, occurred via both the mFBP (81%) and the RF/MTX-carrier (19%). With respect to antifolates, the mFBP in L1210-B73 cells contributed for less than 30% in the uptake of [3H]MTX but was the predominant route (92%) in the uptake of [3H]ICI-198,583. Results from affinity and membrane transport observations were consistent with growth inhibition studies on L1210-B73 cells demonstrating that the mFBP played only a minor role in the cytotoxic effects of MTX or 10-EdAM. On the other hand, L1210-B73 cells were significantly more sensitive to CB3717 (220-fold) and ICI-198,583 (10-fold) than parental L1210 cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Membrane transport of natural folates and antifolate compounds in murine L1210 leukemia cells: role of carrier- and receptor-mediated transport systems. 165 52

Folate-based anticancer drugs with specificity for thymidylate synthase (TS) have come of age. Ideas nurtured in the early 1970s led to the first-generation of antifolates with TS and dihydrofolate reductase (DHFR) inhibitory activities. Compounds with increased selectivity for TS followed with the highly specific inhibitor, CB3717 being synthesised in 1979 at the Institute of Cancer Research (ICR). CB3717 had significant clinical activity but its development had to be abandoned because its low aqueous solubility led to occasional nephrotoxicity. Collaborative laboratory studies between the ICR and ICI Pharmaceuticals (later to become Zeneca Pharmaceuticals) led to the discovery of ZD1694 (Tomudex), the first antifolate to be licensed for the treatment of cancer (UK 1995) in nearly 40 years and the first new drug for colorectal cancer in about 35 years. Tomudex belongs to a class of compounds that use the reduced-folate carrier (RFC) for uptake into cells and which are excellent substrates for folylpolyglutamate synthetase (FPGS). This paper reviews the underlying philosophies, and the milestones reached during the development of Tomudex.
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PMID:Tomudex (ZD1694): from concept to care, a programme in rational drug discovery. 895 86

The aryl-biguanides proguanil and chlorproguanil were developed as part of a collaborative programme between ICI and the Liverpool School of Tropical Medicine during the 1940s. The compounds were characterized by their absence of host toxicity. However, the rapid development of parasite resistance to the actions of these drugs and the development of the 4-aminoquinoline, chloroquine, severely limited their use. The subsequent widespread development of parasite resistance to chloroquine, together with the observations that the magnitude of dihydrofolate reductase inhibitor resistance (the site of action of the biguanides) developed to pyrimethamine is not directly correlated with biguanide resistance(1,2). has resulted in renewed interest in these drugs. In particular, proguanil is now the drug of choice for malaria prophylaxis, in combination with chloroquine; used in combination with a suitable sulphonamide, it may be of value in malaria therapy.
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PMID:Inter-individual variation in the metabolic activation of the antimalarial biguanides. 1546 63