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)

Choriocarcinoma cells grown in the presence of MTX have developed resistance in two ways. The HCCM derived sublines (relatively high MTX resistant) produced enhanced levels of DHFR and had relatively unimpaired transport of MTX, though altered transport was the primary determinant of response in the CC1 derived sublines (low MTX resistant). Since the selection procedure used was identical, it was assumed that altered MTX transport was insufficient to account entirely for various degrees of resistance. Increased DHFR activity was necessary for the development of high MTX resistance. The overproduction of DHFR was the consequence of amplification of the DHFR gene sequence. The incidence of DMs in metaphases paralleled the degree of resistance. Since DMs were also present in the cells not showing DHFR gene amplification, mechanisms other than DHFR gene multiplication were responsible for the de novo synthesis of DMs.
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PMID:[MTX resistant mechanisms in human choriocarcinoma cells]. 347 5

This study compares the ability of methotrexate and liposomes, in which the drug is anchored to the lipid bilayers via methotrexate-gamma-dimyristoylphosphatidylethanolamine, to inhibit proliferation of human leukemic cells (CEM/O) and cells derived from this line that are resistant to methotrexate because of either a defective transport system (CEM/MTX cells) or elevated levels of dihydrofolate reductase (CEM/R1 cells). Whereas CEM/O and CEM/MTX cells show a 120-fold difference in their susceptibility to methotrexate (as measured by the incorporation of tritiated deoxyuridine into DNA), both lines are equally sensitive to the liposomes. In contrast, proliferation of CEM/MTX cells is not inhibited significantly by methotrexate-gamma-glycerophosphorylethanolamine (MTX-gamma-glyceroPE), the water-soluble analog of MTX-gamma-DMPE. Both the ability of the liposomes to circumvent the transport defect, and the inability of MTX-gamma-glyceroPE to do so, were anticipated on the basis of previous experiments which show that thiamine pyrophosphate could antagonize inhibition of mouse 3T3 and L1210 cell proliferation by methotrexate and MTX-gamma-glyceroPE, but not inhibition by liposomes. Human cells (CEM/O) behave similarly. The present experiments also suggest that liposomes prepared with MTX-gamma-DMPE can partially reverse the methotrexate resistance of CEM/R1 cells that is due to overproduction of the target enzyme.
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PMID:Effect of liposomes sensitized with methotrexate-gamma-dimyristoylphosphatidylethanolamine on cells that are resistant to methotrexate. 348 74

Drug-monoclonal antibody conjugates have been evaluated for their specificity and toxicity towards tumour cells in vitro and in vivo; however, few studies have investigated their mode of entry into cells and mechanism of action. In this study the uptake and toxic effect of three different Methotrexate-monoclonal antibody (MTX-MoAb) conjugates (MTX-anti-transferrin receptor (TFR), MTX-anti-Ly-2.1 and MTX-anti-L3T4) were examined and compared with free MTX. It was concluded that MTX and these MTX-MoAb conjugates gain entry into tumour cells and are processed by different mechanisms, considering the following results: alterations in temperature had a greater effect on the toxicity of MTX-MoAb than on MTX; in addition, MTX and MTX-MoAb had different rates of action on cells; the specific MTX transport inhibitor, p-chloromercuribenzene sulphonate (pCMS), reduced MTX toxicity but had no effect on specific MTX-MoAb conjugates; the concentration of various ions (Ca2+, Mg2+ and Mn2+) effected the entry of MTX-MoAb but had no effect on free MTX. MTX enters by its own carrier mechanism, while MTX-MoAb conjugates enter by endocytosis with release of MTX at the lysosomal membrane, demonstrated by the ability of chloroquine and NH4Cl (which inhibit lysosomal function) to inhibit the action of MTX-MoAb but not MTX. Therefore, these MTX-MoAb conjugates are not degraded at the surface but bind to their receptor and then enter the cell by endocytosis as one entity; the MTX-MoAb conjugates are then degraded within the lysosomes, resulting in the release of free MTX into the cytoplasm where it acts on dihydrofolate reductase (DHFR) to inhibit cell metabolism.
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PMID:The mode of action of methotrexate-monoclonal antibody conjugates. 361 Feb 18

Previous studies have demonstrated the usefulness of flow cytometry in the analysis of dihydrofolate reductase (EC 1.5.1.3) gene amplification. However, this powerful and potentially sensitive method for analyzing gene expression in individual cells has not seen widespread use. This is due in part to the difficulty of producing fluorescent methotrexate (Fluo-MTX), which is needed to label dihydrofolate reductase in vivo, in yields higher than 1% and of sufficient purity to give low nonspecific backgrounds by the published procedures. We have significantly improved the synthesis of Fluo-MTX to obtain rapidly a chromatographically pure product in 20% yields. In addition, we have found that cell volume is a variable which makes direct comparisons of fluorescence intensity between cell lines difficult. In order to circumvent this problem, we have improved flow cytometric analysis to measure the fluorescence specific intensity of individual cells. A survey of various cells commonly used for gene transfer shows a significant variability in the efficiency with which they are labeled with Fluo-MTX, which appears to be due to variations in their ability to transport this reagent.
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PMID:Fluorescent methotrexate labeling and flow cytometric analysis of cells containing low levels of dihydrofolate reductase. 370 Mar 93

Since the introduction of MAC therapy in 1973, choriocarcinoma has become one of the most curable gynecologic malignancies. But in MAC resistant cases, the therapeutic results have been unsatisfactory. To establish the proper therapy for MAC resistant choriocarcinoma, fundamental experiments with MTX resistant HM cell lines were carried out with the aim of their clinical application. The effective combination in the treatment of choriocarcinoma appeared to be 10 to the minus 5th power mol of MTX and 10 to the minus 8th power mol of Act-D, considering its effect in cell proliferation inhibition, deoxyuridine uptake inhibition and dihydrofolate reductase activity suppression. Taking the effects of Oncovin confirmed by the experiments with nude mice into consideration, a combined moderate dose of MTX, Oncovin and Act-D, namely MOA therapy was used. The protocol of MOA therapy is as follows: The first day, MTX 150mg bolus, 300mg drip infusion for 4 hours, Oncovin 2mg bolus and Act-D 0.5mg bolus. From the second to the fifth day, Act-D bolus. MAC was effective in only one of the eight recurrent cases, but on the other hand, MOA was effective in five cases of choriocarcinoma including two MAC resistant cases. Therefore, MOA seemed to be a more effective therapy than MAC.
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PMID:[Fundamental and clinical study of chemotherapy of refractory choriocarcinoma]. 381 16

The self-association in aqueous solution of folic acid (FA), 7,8-dihydrofolic acid (DHFA) and 5,6,7,8-tetrahydrofolic acid (THFA) has been studied by the use of proton magnetic resonance (1H NMR) spectroscopy. At concentrations below 10 mM, all three folates exist in (monomer)2 in equilibrium dimer equilibria with association constants (Ka) equal to 400, 66 and 14 M-1 for FA, DHFA and THFA respectively. These values decreased markedly to 157, 18 and 3 M-1, for FA, DHFA and THFA respectively, in the presence of 0.8 M KCl. The high extent of dimerization of FA is believed to impede the interaction with the active site of dihydrofolate reductase (DHFR) rendering it a poor substrate. In contrast, the DHFA with a much lower Ka is a better substrate. Conditions that lower the Ka of both FA and DHFA, (i.e., 0.8M KCl) turn them into better substrates. Based on the findings of the present study, it is also predicted that dihydro MTX may be a better inhibitor of DHFR than MTX.
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PMID:Association of folate molecules as determined by proton NMR: implications on enzyme binding. 383 76

A human T-lymphoblast cell line, CCRF-CEM/R1, resistant to methotrexate by virtue of increased dihydrofolate reductase activity, was grown in stepwise increasing concentrations of methotrexate. This additional selection pressure resulted in a cell line, CCRF-CEM/R2, resistant to methotrexate by virtue of both an elevation of dihydrofolate reductase activity and a marked decrease in methotrexate transport. The R1 and R2 cells were approximately 70- and 350-fold more resistant to methotrexate than were the parent cells. The effects of three folate antagonists were studied on these cell lines and also on CCRF-CEM/R3 cells, characterized by impaired methotrexate transport but normal levels of dihydrofolate reductase. The elevated reductase subline CCRF-CEM/R1 was cross-resistant to triazinate [Baker's antifol, NSC 139105; ethanesulfonic acid compounded with alpha-(2-chloro-4-[4,6-diamino-2,2-dimethyl-S-triazine-1-(2H)-yl] phenoxyl)-N,N-dimethyl-m-toluamide (1:1)] and trimetrexate (NSC 249008, JB-11, TMQ; 2,4-diamino-6-[(3,4,5-trimethoxyanilino)methyl]quinazoline), two nonclassical folate antagonists. In contrast, the transport defective subline, CCRF-CEM/R3 was not cross-resistant to these two compounds. In cells resistant to MTX by virtue of both mechanisms, CCRF-CEM/R2, triazinate, and trimetrexate were partially cross-resistant. All three methotrexate-resistant sublines showed minor cross-resistance to isoaminohydroxyquinazoline (IAHQ, NSC 289517; 5,8-dideazaisopteroylglutamate), a folate antagonist inhibitor of thymidylate synthase. These data demonstrate that methotrexate-resistant tumor cells may be effectively inhibited by antifolates with different route of entry into cells or with different enzyme targets.
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PMID:Cytotoxic effects of folate antagonists against methotrexate-resistant human leukemic lymphoblast CCRF-CEM cell lines. 385 84

[3H] Methotrexate [( 3H]MTX) was covalently linked to monoclonal antibody (MoAb) 225.28S against human melanoma, to a rabbit anti-human melanoma IgG absorbed either with human red blood cells (AHMGR) or with red blood cells and a variety of normal human tissues (AHMGR + T), or to normal rabbit IgG (NRG). Human melanoma M21 cells were incubated at 0 degrees C or 37 degrees C with 10 microM free MTX or 10 microM MTX linked to one of the above carriers. The order of net uptake of MTX during 6 hours was MTX-MoAb 225.28S greater than MTX-AHMGR greater than MTX-AHMGR + T greater than MTX-NRG greater than or equal to MTX. This order of uptake by the three antibody conjugates corresponded to the amount of conjugate bound at equilibrium at 0 degrees C and to the immunofluorescence titers. Binding sites for MoAb 225.28S were more efficient for internalization of MTX than were those for the two polyclonal antibody preparations. When M21 cells preloaded with MTX by incubation at a drug concentration of 1.0 or 10 microM were incubated in drug-free medium, the amount of cell-associated MTX rapidly declined to 1.8 pmol/mg protein, i.e., the level of intracellular dihydrofolate reductase (DHFR). However, when cells preloaded to a drug content of 112 pmol/mg protein by incubation with 10 microM MTX linked to AHMGR were transferred to conjugate-free medium, 65 pmol MTX/mg remained cell associated after 12 hours. The efflux was inhibited by chloroquine. Both the efflux medium and M21 cells after a 9.5-hour incubation period had MTX-containing catabolic fragments that inhibited DHFR.
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PMID:Uptake of methotrexate linked to polyclonal and monoclonal antimelanoma antibodies by a human melanoma cell line. 385 85

7-Hydroxy-MTX production after consecutive high-dose MTX therapy (12 g/m2) was measured in 7 patients with osteosarcoma by HPLC. 7-Hydroxy-MTX serum values in the last cycle were found to be significantly lower compared with the first high-dose MTX treatment of the adjuvant chemotherapy protocol (COSS 80). Moreover, in another patient highly reduced 7-hydroxy-MTX production was correlated with severe clinical toxicity. As 7-hydroxy-MTX is a 200 fold less potent dihydrofolic acid reductase inhibitor compared with MTX decreased production of the metabolite may lead to enhanced clinical toxicity which may not be predictable monitoring MTX serum levels alone.
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PMID:7-Hydroxy-methotrexate and clinical toxicity following high-dose methotrexate therapy. 385 53

Dihydrofolate reductase from a MTX-resistant human promyelocytic leukemia cell line (HL-60 R4-29) had previously been found to have a higher specific activity than the DHFR from the parent MTX-sensitive cell line, in the absence of enzyme overproduction (Dedhar et al, Biochem. J. 225, 609-617, 1985). The enzymes from these two cell lines have been purified to apparent homogeneity as judged by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The dihydrofolate reductase from the sensitive cells has an apparent molecular weight of 42,000 daltons, whereas that from the resistant cells has an apparent molecular weight of 21,000 daltons. The dihydrofolate reductase activity from the resistant cells is characterized by marked heat instability and substantially higher Vmax and Km values for the dihydrofolic acid/NADPH combination. The enzyme from the resistant cells can be protected against heat inactivation by either dihydrofolic acid or NADPH, or both. A 50 fold higher concentration of methotrexate was required to totally inhibit the R4-29 dihydrofolate reductase activity as compared to the (S) activity when the enzymes were assayed using equivalent amounts of enzyme protein. These data show that the increased dihydrofolate reductase specific activity present in the (R4-29) cells is associated with an alteration in the structure of this enzyme.
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PMID:Methotrexate-resistant human promyelocytic leukemia (HL-60) cells express a dihydrofolate reductase with altered properties associated with increased enzyme activity. 386 Feb 3


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