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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)
MTA (LY231514) is an antifolate that targets multiple folate-dependent enzymes. In this report, MTA transport was characterized in wild-type L1210 cells and variants with impaired membrane transport or polyglutamation. MTA influx via the
reduced folate carrier
was somewhat faster (approximately 30%) than that for methotrexate (MTX). Unlike MTX, MTA was rapidly polyglutamated in L1210 cells; hence, a folylpoly-gamma-glutamate synthetase-deficient L1210 variant was used to assess net transport and efflux properties. The MTA transmembrane gradient for exchangeable drug was 2.5 times greater than the MTX gradient, attributable primarily to an efflux rate constant 40% that of MTX. No MTA was bound to
dihydrofolate reductase
. When grown with folic acid, MTX-resistant L1210 variants with mutations in the
reduced folate carrier
demonstrated cross-resistance to MTA, markedly reduced MTA accumulation, and only a slightly decreased intracellular folate cofactor pool as compared to L1210 cells. However, when 5-formyltetrahydrofolate was the growth substrate, these MTX-resistant cells were less resistant or negligibly resistant to MTA, accumulated more MTA, and had a lower folate pool as compared to L1210 cells. MTA activity and the intracellular folate pool in L1210 cells were inversely related. These data indicate that MTA polyglutamation in L1210 cells is favored by both the generation of high intracellular drug levels and high MTA affinity for FPGS relative to MTX. Cells resistant to MTX because of impaired transport may retain appreciable sensitivity to MTA because of a concurrent reduction in tetrahydrofolate cofactor transport resulting in cellular folate depletion, which diminishes endogenous folate suppression of MTA polyglutamation.
...
PMID:The mechanism of transport of the multitargeted antifolate (MTA) and its cross-resistance pattern in cells with markedly impaired transport of methotrexate. 1099 62
Drug resistance of leukemic blasts is correlated to event-free survival and might be predicted by mRNA expression of drug resistance-related proteins. Methotrexate (MTX) is an important component in the treatment of childhood leukemia. Mechanisms of MTX resistance include (1) decreased transport via the
reduced folate carrier
(RFC), (2) altered levels of target enzymes, eg
dihydrofolate reductase
(
DHFR
) and thymidylate synthase (TS), (3) decreased ratio of folylpolyglutamate synthetase (FPGS)/folylpolyglutamate hydrolase (FPGH). We designed competitive templates for each of these genes to measure mRNA expression by quantitative RT-PCR and normalized the expression to that of beta-actin. T-lineage acute lymphoblastic leukemia (T-ALL), relatively MTX resistant compared to common/preB-ALL, displayed higher mRNA levels of
DHFR
and TS (three- and four-fold higher, respectively; P < 0.001), while FPGS expression was lower (three-fold, P = 0.006) compared to common/preB-ALL. The ratio of (
DHFR
x FPGH)/(
RFC
x FPGS) was more discriminating between T-ALL and c/preB-ALL (eight-fold higher; P < 0.001) than either target independently. Acute myeloid leukemia (AML) cells, considered MTX resistant, expressed two-fold lower levels of FPGS mRNA compared to c/preB-ALL (P = 0.04). The ratio of FPGH/FPGS was more discriminating between AML and c/preB-ALL (four-fold higher; P = 0.001) than either target independently. For the total group of 79 leukemic samples, mRNA expression of
DHFR
varied 549-fold and paralleled TS mRNA expression (r = 0.80; P < 0.001). Although variations in mRNA expression resembled variations in functional activity, no direct correlations were found for
RFC
(58-fold variation in mRNA expression), FPGS (95-fold) and FPGH (178-fold). In conclusion, differences in mRNA expression of MTX resistance parameters between leukemic subtypes as detected by competitive RT-PCR are in line with known differences in MTX resistance.
...
PMID:mRNA expression levels of methotrexate resistance-related proteins in childhood leukemia as determined by a standardized competitive template-based RT-PCR method. 1118 7
We have established human leukemia cell lines made resistant to various antifolate drugs and analyzed resistance mechanisms developed in these cells at the cellular and molecular levels. The cells acquired resistance to antifolate drug(s) through: (1) impaired drug uptake via the
reduced folate carrier
, (2) increased activity of the target enzymes[
dihydrofolate reductase
(DHFR) or thymidylate synthase(TS)] resulted from a concomitant amplification and overexpression of their gene, (3) induction of a variant DHFR with a low affinity for antifolate drug(s) used for the selection of resistance, and (4) defective polyglutamation. Each resistance mechanism was not necessarily induced at random, but appeared to relate to the biochemical and pharmacological properties of the drug exposed, biological dispositions of the cells, drug-exposure manners to, or culture conditions of the cells. Since it has been shown that a minor modification at the specified position of the folate structure resulted in a drastic change in its pharmacological properties, many new compounds have been rationally designed on the basis of the knowledge of relationships between structure modifications and pharmacological properties. The step-by-step approach to the development of new analogues led to the discoveries of several promising antifolate drugs such as trimetrexate and raltitrexed, which can overcome the acquired and natural resistance to methotrexate, a classical antifolate, and clinical trials of these newer classes of antifolate compounds are currently underway.
...
PMID:Antifolate resistance and its circumvention by new analogues. 1177 38
We determined the mechanisms of resistance of human CCRF-CEM leukemia cells to methotrexate (MTX) vs. those to six novel antifolates: the polyglutamatable thymidylate synthase (TS) inhibitors ZD1694, multitargeted antifolate, pemetrexed, ALIMTA (MTA) and GW1843U89, the non-polyglutamatable inhibitors of TS, ZD9331, and
dihydrofolate reductase
, PT523, as well as DDATHF, a polyglutamatable glycinamide ribonucleotide transformylase inhibitor. CEM cells were made resistant to these drugs by clinically relevant intermittent 24 hr exposures to 5-10 microM of MTX, ZD1694, GW1843U89, MTA and DDATHF, by intermittent 72 hr exposures to 5 microM of ZD9331 and by continuous exposure to stepwise increasing concentrations of ZD9331, GW1843U89 and PT523. Development of resistance required only 3 cycles of intermittent drug exposure to ZD1694 and MTA, but 5 cycles for MTX, DDATHF and GW1843U89 and 8 cycles for ZD9331. The predominant mechanism of resistance to ZD1694, MTA, MTX and DDATHF was impaired polyglutamylation due to approximately 10-fold decreased folylpolyglutamate synthetase activity. Resistance to intermittent exposures to GW1843U89 and ZD9331 was associated with a 2-fold decreased transport via the
reduced folate carrier
(RFC). The CEM cell lines resistant to intermittent exposures to MTX, ZD1694, MTA, DDATHF, GW1843U89 and ZD9331 displayed a depletion (up to 4-fold) of total intracellular reduced folate pools. Resistance to continuous exposure to ZD9331 was caused by a 14-fold increase in TS activity. CEM/GW70, selected by continuous exposure to GW1843U89 was 50-fold resistant to GW1843U89, whereas continuous exposure to PT523 generated CEM/PT523 cells that were highly resistant (1550-fold) to PT523. Both CEM/GW70 and CEM/PT523 displayed cross-resistance to several antifolates that depend on the
RFC
for cellular uptake, including MTX (95- and 530-fold). CEM/GW70 cells were characterized by a 12-fold decreased transport of [3H]MTX. Interestingly, however, CEM/GW70 cells displayed an enhanced transport of folic acid, consistent with the expression of a structurally altered
RFC
resulting in a 2.6-fold increase of intracellular folate pools. CEM/PT523 cells displayed a markedly impaired (100-fold) transport of [3H]MTX along with 12-fold decreased total folate pools. In conclusion, multifunctional mechanisms of resistance in CEM cells have a differential impact on cellular folate homeostasis: decreased polyglutamylation and transport defects lead to folate depletion, whereas a structurally altered
RFC
protein can provoke expanded intracellular folate pools.
...
PMID:Multiple mechanisms of resistance to methotrexate and novel antifolates in human CCRF-CEM leukemia cells and their implications for folate homeostasis. 1184 83
Pemetrexed is a new-generation antifolate that in its higher polyglutamyl forms is a potent, direct inhibitor of thymidylate synthase and, to a lesser extent, glycinamide ribonucleotide transformylase. Activity of the drug may be partially preserved under conditions in which cells are highly resistant to other thymidylate synthase inhibitors, possibly because of premetrexed's secondary inhibitory effects on purine synthesis. Pemetrexed inhibition of
dihydrofolate reductase
is not of pharmacologic importance. Pemetrexed has high affinity for the
reduced folate carrier
and folate receptor and is among the most potent substrates for folylpolyglutamate synthetase. These properties result in rapid accumulation of the free drug in cells with the rapid formation of high levels of the active polyglutamyl congeners. Pemetrexed activity is modulated by natural folates within cells that compete for polyglutamation at the level of folylpolyglutamate synthetase. Cells resistant to methotrexate because of impaired transport via the
reduced folate carrier
may retain partial sensitivity to pemetrexed. This is due to concurrent diminished transport of physiologic reduced folates and contraction of the cellular folate pool, thereby relaxing the usual level of suppression of pemetrexed polyglutamation. The risk of pemetrexed toxicity is increased when cellular folates are suboptimal. This is best monitored by assessment of blood homocysteine levels, and can be diminished by the coadministration of folic acid.
...
PMID:Molecular, biochemical, and cellular pharmacology of pemetrexed. 1257 5
To elucidate the mechanism(s) of methotrexate (MTX) resistance as a possible reason underlying treatment failure in high-dose MTX regimens combined with leucovorin (LV) rescue, we established MTX-resistant human T-cell leukemia cell line CCRF-CEM cells in the presence of excess LV, and characterized their properties. Continuous exposure of the cells to escalating concentrations of MTX up to 20 microM in the presence of 1000 nM LV resulted in establishment of three MTX-resistant sublines with a wide disparity of resistance degree over a 4 logarithmic range (approximately 40-, 900- and 44,000-fold, respectively). Transmembrane transport of MTX in these sublines was diminished to 52%, 35% and 12%, respectively. Intracellular retention of MTX in these sublines was not different from that of the parent cells. A cell growth study in various concentrations of LV showed that cells with higher resistance to MTX required more LV for optimal growth. In parallel with the resistance levels, there was an increase in mRNA expression of
dihydrofolate reductase
gene and a decrease in that of thymidylate synthase gene, but no change in that of
reduced folate carrier
(RFC1) gene, as assessed by northern blot analysis. Sequencing of the RFC1 gene in all 3 sublines revealed a point mutation in codon 47 (TCC-->TTC) resulting in substitution of Phe for Ser residue, and additional deletion of CTG of codon 112 in the subline with the highest resistance. In summary, MTX exposure to CCRF-CEM cells in the presence of 1000 nM LV resulted in the establishment of heterogeneous cell populations with a wide range of transport-mediated MTX resistance, which was associated with differential alterations of RFC gene. These cell lines may serve as models for investigation of the molecular mechanism(s) underlying refractory tumors in high-dose MTX regimens with LV rescue.
...
PMID:Large diversity in transport-mediated methotrexate resistance in human leukemia cell line CCRF-CEM established in a high concentration of leucovorin. 1270 99
Thirteen structural analogs of the potent nonpolyglutamatable
dihydrofolate reductase
inhibitor N(alpha)-(4-amino-4-deoxypteroyl)-N(delta)-hemiphthaloyl-L-ornithine (PT523) with modifications in the side chain, the para-aminobenzoyl moiety, or the 9,10-bridge were evaluated for the ability to inhibit human recombinant
dihydrofolate reductase
(
DHFR
), to utilize the
reduced folate carrier
(RFC) for influx, and to inhibit the growth of CCRF-CEM human leukemia cells in culture. In spectrophotometric assays of the kinetics of the reduction of dihydrofolate by
DHFR
in the presence of NADPH, these compounds had K(i) values ranging from 0.2 to 1.3pM, and thus were not greatly different in potency from the parent drug PT523. By comparison, the K(i) values of aminopterin (AMT), methotrexate (MTX), and 10-ethyl-10-deazaaminopterin (EDX) were 3.7, 4.8, and 11pM. In assays of competitive inhibition of [3H]MTX influx into CCRF-CEM cells, the K(i) values ranged from 0.21 to 7.3 micro M, as compared with 0.71, 5.4, and 1.1 micro M for PT523, AMT, and EDX. The K(t) for MTX was also re-analyzed and found to be 4.7 micro M, in better agreement with the literature than our previously reported value of 7.1 micro M. The IC(50) values of these compounds as inhibitors of the growth of CCRF-CEM cells after 72hr of drug exposure ranged from 0.53 to 55nM, and were qualitatively consistent with the other results.
...
PMID:Further studies on the interaction of nonpolyglutamatable aminopterin analogs with dihydrofolate reductase and the reduced folate carrier as determinants of in vitro antitumor activity. 1273 54
Previous studies have shown that decreased expression of the
reduced folate carrier
(RFC) and increased expression of
dihydrofolate reductase
(
DHFR
) are associated with intrinsic and acquired methotrexate resistance, respectively, in osteosarcoma (OS). It has also been shown in colorectal cancer that E2F-1 expression correlates with thymidylate synthase (TS) and, to a lesser extent,
DHFR
expression. To begin to investigate the regulation of
DHFR
and
RFC
expression in OS samples, mRNA expression of E2F-1 and E2F-4 were measured in OS tumor samples and related to
DHFR
,
RFC
, and TS mRNA expression. Using fluorescent quantitative real-time PCR, 112 human OS patient samples were investigated for potential E2F-1/E2F-4:
DHFR
, E2F-1/E2F-4:
RFC
, and E2F-1/E2F-4:TS correlations. The expression ranges for each gene are as follows:
DHFR
, 0.02-33.13 (median = 0.20);
RFC
, 0.02-229.13 (median = 1.91); TS, 0.01-9.99 (median = 0.15); E2F-1, 0.05-69.07 (median = 0.52); and E2F-4, 0.24-52.35 (median = 1.45). Spearman correlation coefficients (r(s)) for E2F-1:
DHFR
, E2F-1:
RFC
, E2F-1:TS, E2F-4:
DHFR
, E2F-4:
RFC
, and E2F-4:TS were calculated to be 0.53, 0.63, 0.60, 0.41, 0.58, and 0.33, respectively (P < 0.001). On the basis of this data, moderate correlations exist between E2F-1/E2F-4 and
DHFR
,
RFC
, and TS. These results suggest E2F-1/E2F-4 may play a role in the regulation of
RFC
expression, which has not been reported previously. The E2F transcription factors are also related to
DHFR
and TS expression in OS samples, suggesting a possible involvement in methotrexate resistance. Although E2F mRNA levels correlate with
DHFR
,
RFC
, and TS mRNA expression, additional experiments are necessary to determine the direct effects of these transcription factors and identify other proteins that may influence this relationship.
...
PMID:mRNA expression levels of E2F transcription factors correlate with dihydrofolate reductase, reduced folate carrier, and thymidylate synthase mRNA expression in osteosarcoma. 1281 32
Methotrexate (MTX) is one of the most important drugs for osteosarcoma (OS) treatment. To identify genetic aberrations associated with the development of MTX resistance in OS cells, in addition to the previously reported expression changes of
dihydrofolate reductase
(
DHFR
) and
reduced folate carrier
(RFC) genes, comparative genomic hybridization (CGH)-based techniques were used. The direct comparison between MTX-resistant variants of U-2OS or Saos-2 human OS cell lines with their respective parental cell lines by CGH on chromosomes revealed that development of MTX resistance was associated with gain of the chromosomal regions 5q12-q15 and 11q14-qter in U-2OS variants, and with gain of 8q22-qter in Saos-2 variants. Further analyses by CGH on microarrays demonstrated a progressively increasing gain of mixed lineage leukemia (MLL) gene (11q23) in U-2OS MTX-resistant variants, which was also confirmed by fluorescence in situ hybridization (FISH), in addition to gain of FGR (1p36), amplification/overexpression of
DHFR
, and slight decrease of
RFC
expression. In Saos-2 MTX-resistant variants, gain of MYC (8q24.12-q24.13) was detected, together with a remarkable decrease of
RFC
expression. Further analyses of
DHFR
, MLL, MYC, and
RFC
gene status in four additional human OS cell lines revealed that only gain of
DHFR
and MLL were associated with an inherent lower sensitivity to MTX. These data demonstrate that genetic analyses with complementary techniques are helpful for the identification of new candidate genes, which might be considered for an early identification of MTX unresponsive tumors.
...
PMID:Genomic imbalances associated with methotrexate resistance in human osteosarcoma cell lines detected by comparative genomic hybridization-based techniques. 1458 36
Heretofore unknown analogues of aminopterin (AMT) and methotrexate (MTX) in which free rotation of the amide bond between the phenyl ring and amino acid side chain is prevented by a CH(2) bridge were synthesized and tested for in vitro antifolate activity. The K(i) of the AMT analogue (9) against human
dihydrofolate reductase
(
DHFR
) was 34 pM, whereas that of the MTX analogue (10) was 2100 pM. Both compounds were less potent than the parent drugs. However, although the difference between AMT and MTX was <2-fold, the difference between 9 and 10 was 62-fold, suggesting that the effect of N(10)-methyl substitution is amplified in the bridged compounds. The K(i) values of 9 and 10 as inhibitors of [(3)H]MTX influx into CCRF-CEM human leukemia cells via the
reduced folate carrier
(RFC) were 0.28 and 1.1 muM, respectively. The corresponding K(i) and K(t) values determined earlier for AMT and MTX were 5.4 and 4.7 muM, respectively. Thus, in contrast to its unfavorable effect on
DHFR
binding, the CH(2) bridge increased
RFC
binding. In a 72 h growth assay with CCRF-CEM cells, the IC(50) values of 9 and 10 were 5.1 and 140 nM, respectively, a 27-fold difference that was qualitatively consistent with the observed combination of weaker
DHFR
binding and stronger
RFC
binding. Although rotationally restricted inhibitors of other enzymes of folate pathway enzymes have been described previously, 9 and 10 are the first reported examples of
DHFR
inhibitors of this type.
...
PMID:Synthesis and in vitro antifolate activity of rotationally restricted aminopterin and methotrexate analogues. 1561 44
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