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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)
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
A fluorescein derivative of the lysine analogue of folic acid, N alpha-pteroyl-N epilson-(4'-fluoresceinthiocarbamoyl)-L-lysine (PLF), was synthesized as a probe for
dihydrofolate reductase
(
DHFR
) and a membrane
folate binding protein
(m-FBP). Excitation of PLF at 282 nm and at 497 nm gave a fluorescence emission maximum at 518 nm. Binding of PLF to human
DHFR
or human placental m-FBP results in approximately a 20-fold enhancement in the magnitude of the fluorescence emission, suggesting that the ligand interacts with a hydrophobic region on these proteins. Additional evidence suggests that an energy transfer may occur between the pteridine and the fluorescein moieties. PLF binds to the active site of human
DHFR
since methotrexate (MTX) competes stoichiometrically and the denatured enzyme in the presence of PLF did not exhibit fluorescent enhancement. The dissociation constant for the fluorescein derivative with respect to human
DHFR
is 115 nM as compared to 111 nM for folic acid. The Ki value for the competitive inhibition of human
DHFR
by the fluorescent analogue of folic acid is 2.0 microM compared to 0.48 microM for folic acid. PLF was reduced to N alpha-(7,8-dihydropteroyl)-N epilson-(4'-fluoresceinthiocarbamoyl)-L-lysine (H2PLF) and assayed by the enzymatic conversion to the tetrahydro derivative. The Km value for human
DHFR
for the dihydrofolate analogue is 2.0 microM. The KD value for H2PLF to human
DHFR
is 47 nM as compared to 44 nM for dihydrofolate. The KD values for both H2PLF and PLF indicate that the fluorescein moiety does not significantly affect folate binding in enzyme binary complexes.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Synthesis and biological evaluation of a fluorescent analogue of folic acid. 190 73
The uptake of methotrexate by KB cells was observed to be dependent on time, temperature, and concentration of extracellular methotrexate. The Kd for methotrexate surface binding to KB cells was approximately 200 nM. Following exposure of KB cells to trace quantities of [3H]methotrexate for periods ranging from 6 min to 24 h, the cellular methotrexate was progressively formed into methotrexate polyglutamates and was bound to
dihydrofolate reductase
as well as to a particulate
folate binding protein
. To further study the mechanism of methotrexate uptake in KB cells, the N-hydroxysuccinimide ester of methotrexate was used to covalently label the surface of KB cells and to inhibit transport of methotrexate. The N-hydroxysuccinimide ester of methotrexate was bound to a species of protein with an apparent molecular weight of 160,000 in 1% (v/v) Triton X-100 that bound folic acid and was specifically precipitated by antiserum raised against the previously purified high-affinity
folate binding protein
(the folate receptor) from human KB cells. In addition, trypsin was utilized to remove surface-accessible covalently bound methotrexate. The amount of covalently bound methotrexate that could be released by trypsin initially decreased on incubation at 37 degrees C, suggesting that the methotrexate and binding protein were internalized. However, with time, trypsin could again release the covalently bound methotrexate, suggesting that the binding protein cycles from the external cell surface to the inside of the cell and out again.
...
PMID:Role of the membrane-associated folate binding protein (folate receptor) in methotrexate transport by human KB cells. 255 22
We previously reported (Matherly et al., J Biol Chem 267: 23253-23260, 1992) that impaired methotrexate transport in a drug-resistant CCRF-CEM variant (CEM/MTX) involved the synthesis of a structurally altered isoform of the "classical" carrier for methotrexate and related derivatives. Although CEM/MTX cells were highly resistant (162- to 300-fold) to assorted antifolate substrates for the classical transporter, including methotrexate, aminopterin, 10-ethyl-10-deazaaminopterin, ICI D1694, and 1843U89, they were only 3.6-fold resistant to (6R)-5,10-dideaza-5,6,7,8-tetrahydrofolate (DDATHF). These divergent antifolate sensitivities were not associated with appreciable differences in the levels of
dihydrofolate reductase
, thymidylate synthase, and 5'-phosphoribosylglycinamide (GAR) transformylase, or the expression of a high affinity membrane
folate binding protein
receptor in either line. The initial rate of [14C]DDATHF influx was increased 2.9-fold over that for [3H]methotrexate in parental cells (at 2 microM). Whereas [14C]DDATHF initial uptake was, likewise, increased over [3H]methotrexate in CEM/MTX cells (5.3-fold), influx of both compounds was impaired substantially (95-97%). For the parent, influx of [14C]DDATHF was inhibited by substrates for the classical transporter including unlabeled DDATHF, methotrexate, (6R,S)-5-formyl tetrahydrofolate, 10-ethyl-10-deazaaminopterin, ICI D1694, 1843U89, and folic acid. The synthesis of a modified transporter in CEM/MTX cells was accompanied by significant changes in the binding of all these transport substrates. In spite of its impaired transport, [14C]DDATHF (at 2 microM), unlike methotrexate, continued to accumulate in CEM/MTX cells, eventually reaching 62% of the parental drug levels after 4 hr. At this time, 53% (parent) and 71% (CEM/MTX) of the intracellular radioactivity from [14C]DDATHF was identified as polyglutamates. DDATHF polyglutamates in CEM/MTX cells after 4 hr reached 90% of the levels measured in parental cells. While significant levels of methotrexate polyglutamates were detected in the parental line, methotrexate polyglutamylation was negligible in intact CEM/MTX cells. The specific activity of folylpolyglutamate synthetase was measured in cell-free extracts from parental and CEM/MTX cells using aminopterin, methotrexate, and DDATHF as substrates; in each case, CEM/MTX cells showed 2-fold higher enzyme activity than parental cells. These data show that even for tumor cells with severely impaired antifolate transport, the extensive conversion of DDATHF to polyglutamyl forms required for GAR transformylase inhibition preserves high levels of antitumor activity.
...
PMID:Determinants of the disparate antitumor activities of (6R)-5,10-dideaza-5,6,7,8-tetrahydrofolate and methotrexate toward human lymphoblastic leukemia cells, characterized by severely impaired antifolate membrane transport. 750 26
The transport properties and growth-inhibitory potential of 37 classic and novel antifolate compounds have been tested in vitro against human and murine cell lines expressing different levels of the reduced folate carrier (RFC), the membrane-associated
folate binding protein
(mFBP), or both. The intracellular targets of these drugs were
dihydrofolate reductase
(
DHFR
), glycinamide ribonucleotide transformylase (GARTF), folylpolyglutamate synthetase (FPGS), and thymidylate synthase (TS). Parameters that were investigated included the affinity of both folate-transport systems for the antifolate drugs, their growth-inhibitory potential as a function of cellular RFC/mFBP expression, and the protective effect of either FA or leucovorin against growth inhibition. Methotrexate, aminopterin, N10-propargyl-5,8-dideazafolic acid (CB3717), ZD1694, 5,8-dideazaisofolic acid (IAHQ), 5,10-dideazatetrahydrofolic acid (DDATHF), and 5-deazafolic acid (efficient substrate for FPGS) were used as the basic structures in the present study, from which modifications were introduced in the pteridine/quinazoline ring, the C9-N10 bridge, the benzoyl ring, and the glutamate side chain. It was observed that RFC exhibited an efficient substrate affinity for all analogues except CB3717, 2-NH2-ZD1694, and glutamate side-chain-modified FPGS inhibitors. Substitutions at the 2-position (e.g., 2-CH3) improved the RFC substrate affinity for methotrexate and aminopterin. Other good substrates included PT523 (N alpha-(4-amino-4-deoxypteroyl)-N delta-hemiphthaloyl-L-ornithine), 10-ethyl-10-deazaaminopterin, and DDATHF. With respect to mFBP, modifications at the N-3 and 4-oxo positions resulted in a substantial loss of binding affinity. Modifications at other sites of the molecule were well tolerated. Growth-inhibition studies identified a series of drugs that were preferentially transported via RFC (2,4-diamino structures) or mFBP (CB3717, 2-NH-ZD1694, or 5,8-dideazaisofolic acid), whereas other drugs were efficiently transported via both transport pathways (e.g., DDATHF, ZD1694, BW1843U89, or LY231514). Given the fact that for an increasing number of normal and neoplastic cells and tissue, different expression levels of RFC and mFBP are being recognized, this folate antagonist structure-activity relationship can be of value for predicting drug sensitivity and resistance of tumor cells or drug-related toxicity to normal cells and for the rational design and development of novel antifolates.
...
PMID:Carrier- and receptor-mediated transport of folate antagonists targeting folate-dependent enzymes: correlates of molecular-structure and biological activity. 756 26
The human membrane-associated
folate binding protein
, or folate receptor (hFR), is a necessary component of folate and methotrexate (MTX) transport in some cell lines. To investigate the role of hFR in acquired MTX resistance in human cells, we characterized nine MTX-resistant clones selected from human nasopharyngeal epidermoid carcinoma (KB) cells (cells which transport folates/anti-folates via the hFR) cultured in media containing low folate concentrations. Compared with wild type KB cells, the level of resistance of the clones ranges from 2- to 80-fold higher and the resistant phenotypes of the clones are characterized as follows. 1)
DHFR
levels are increased (3-13-fold) in four of nine clones; 2) MTX polyglutamation is not detectably different; 3) the extents of MTX efflux are similar; 4) initial rates of MTX efflux are similar except for two clones which exhibit slightly faster efflux rates (approximately 2-fold); and 5) the Vmax for specific MTX and 5-methyltetrahydrofolate transport are decreased (2-18-fold) in all mutants. The Kt values for MTX transport of each mutant are similar to the Kt of KB cells. These results indicate that all nine MTX-resistant clones exhibit defective MTX transport and that four clones also have increased
DHFR
levels. Based on folic acid binding assays, the hFR is reduced by 1.8-24-fold in these clones relative to KB cell hFR expression. Western, Northern, and Southern analyses are consistent with decreased hFR expression in these clones rather than mutations, resulting in alterations in the size or ligand binding affinities of the hFR. The decrement in hFR expression correlates closely with the degree of reduction in MTX transport Vmax for each clone. Since folate and MTX influx proceed via hFR in KB cells and in these mutants, the correlation (R2 = 0.90) between hFR expression and the MTX transport Vmax of each clone indicates that hFR expression is an important determinant of acquired MTX resistance in this human tumor cell line. These studies demonstrate that defective transport (manifested by decreased Vmax) resulting from decreased expression of the hFR is frequent in KB cells cultured under these conditions and suggest that modulation of hFR may be relevant to MTX cytotoxicity or resistance in tissues or cells expressing functionally significant levels of hFR.
...
PMID:Decreased expression of the human folate receptor mediates transport-defective methotrexate resistance in KB cells. 768 Mar 49
Expression of SQM1 protein, a membrane protein, was shown to be reduced in human squamous carcinoma of the head and neck (SqCHN) cell lines made less sensitive to methotrexate (MTX). High correlation of SQM1 protein expression with MTX transport (r = .94) and MTX sensitivity (r = .94) was found in MTX-resistant sublines developed from a clonally drived SqCHN cell line, SCC 15S1. Unlike SQM1 protein, there was no significant difference in amount or molecular weight of reduced-
folate binding protein
found in the membrane of a MTX-resistant subline, SCC15R1-3 and SCC15S1. Furthermore, MTX surface membrane binding was not significantly altered in SCC15R1-3. Compared to SCC15S1 parent cell line, SCC15R1-3 subline with similar
DHFR
enzyme level and MTX polyglutamylation showed a marked reduction in MTX uptake due to a decrease in Vmax without a significant change in Kt. These findings suggest the existence of membrane molecules like SQM1 protein that may indirectly affect MTX transport.
...
PMID:Congruence of SQM1 protein expression with methotrexate sensitivity and transport. 783 71
The human colon adenocarcinoma cell line HT29 can be adapted to 10(-7)- 10(-4) M concentrations of methotrexate (MTX). Cells adapted to 10(-4) M MTX have an enterocyte-like phenotype with
DHFR
gene amplification. Presently, we hypothetized that an increased expression of
folate binding protein
(
FBP
) may participate to the MTX resistance of 10(-4) MTX HT29 cells. The cDNA FBPalpha/beta-actin ratio of amplified transcripts was 4.8- and 1.5- fold higher in 10(-4) and in 10(-7) M MTX HT29 respectively, than in standard type HT29 cells. An increase of transcript level was observed when decreasing folic acid concentration. PI-PLC cleaved 7.7 times more membrane
FBP
in 10(-4) M than in 10(-7) M MTX and wild type HT29 cells. In contrast to 10(-7) M MTX cells, growth of 10(-4) M MTX cells was dependent on folic acid concentration and abolished at a concentration lower than 0.9 microM. In conclusion, the adaptive mechanism of HT29 cells resistant to 10(-4) M MTX is the result of the synergistic overexpression of both
DHFR
and FBPalpha. Overexpression of FBPalpha may be related to the enterocyte-like phenotype of the cells.
...
PMID:Overexpression of folate binding protein alpha is one of the mechanism explaining the adaptation of HT29 cells to high concentration of methotrexate. 1152 May 97
The mechanism of acquired methotrexate-resistance in an estrogen-receptor positive human breast cancer cell line (MTX(R)ZR-75-1) was studied. MTX(R) ZR-75-1 cells are 250-fold resistant to methotrexate when grown in the presence of 1 microM folinic acid and 2,400-fold resistant in the presence of 1 microM folic acid. This drug resistant cell line also showed collateral sensitivity (10-fold) to trimetrexate (TMQ), when grown in the presence of folinic acid. Using fluoresceinated methotrexate (F-MTX), FACS analysis indicated that there is no intracellular accumulation of methotrexate into MTX(R) ZR-75-1 cells, as determined by competition of F-MTX and methotrexate binding to
dihydrofolate reductase
. These characteristics strongly indicate that the mechanism of resistance involved down regulation of the reduced-folate transporter. To investigate this further, the transport kinetics of parental and MTX(R) ZR-75-1 cells were examined. Although the V(max) for methotrexate transport in wild-type (WT) ZR-75-1 breast cancer cells was 1-2 orders of magnitude lower than that in the well characterized leukemia cell lines, such as L1210 and CCRF-CEM cells, kinetic analysis indicated that transport of methotrexate into WT ZR-75-1 cells involved a mechanism that was similar if not identical to the reduced folate transporter. In contrast, no specific uptake of methotrexate was detected in MTX(R) ZR-75-1cells. Furthermore, neither cell line expressed detectable levels of
folate binding protein
, a binding protein with high affinity for folic acid as well as for reduced folates and antifolates. These results indicate that the level of expression of the reduced-folate carrier may be an important factor in determining the sensitivity of breast cancer cells as well as leukemia cells to antifolate compounds.
...
PMID:Folate transport and the modulation of antifolate sensitivity in a methotrexate-resistant human breast cancer cell line. 1629 1
