UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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.
Leukemia 2000 Dec
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

p16 gene deletions are present in about 70% of primary paediatric T-cell acute lymphoblastic leukaemia (T-ALL) and 20% of common/precursor B-cell ALL cases. It is not clear what the impact of the frequent p16 deletions is within the subgroup of T-lineage ALL. We studied the relationship between p16/p19ARF deletions, using fluorescence in situ hybridization, and in vitro drug resistance and prognosis in childhood T-ALL at diagnosis. The cellular drug resistance was measured with the methyl thiazol tetrazoliumbromide assay using a panel of drugs and the thymidylate synthase inhibition assay for methotrexate. There was a complete overlap of individual LC50 values of p16 gene homozygously deleted and p16 germ-line cases for most of the nine classes of drugs tested. The only difference was for dexamethasone: the p16-deleted group was more sensitive than the germ-line p16 group (P = 0.030). The homozygously deleted p16 T-ALL patients (n = 34) treated with the modern multiagent chemotherapy schemes of the Dutch Childhood Leukaemia Study Group ALL-VII/-VIII or Co-operative ALL-92/-97 protocols have a significantly lower 5-year disease-free survival (DFS) than germ-line p16 T-ALL (n = 25) (65.1 +/- 9.1% vs. 95.5 +/- 4.4%, Plog rank = 0.021). Hence, this study identifies a subpopulation of primary childhood T-ALL that appears to have an extremely high DFS. However, the observed differences in outcome do not seem to be related to intrinsic resistance for the tested drugs.
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PMID:In vitro drug resistance and prognostic impact of p16INK4A/P15INK4B deletions in childhood T-cell acute lymphoblastic leukaemia. 1126 73

Acute myeloid leukaemia (AML) is thought to be methotrexate (MTX)-resistant. However, a small study suggested that acute monocytic leukemia (AML-M5) is sensitive to MTX. We measured MTX accumulation/polyglutamylation in 20 AML-nonM5, 37 AML-M5 and 83 common/preB-acute lymphoblastic leukaemia (c/preB-ALL) samples. Membrane transport was determined in 11 childhood AMLs (including 3 AML-M5) and in 25 c/preB-ALL samples. MTX sensitivity was determined in 23 AML-nonM5, 15 AML-M5 and 63 common/preB-ALL samples using the thymidylate synthase (TS) inhibition assay. MTX transport was higher in AML samples compared with c/preB-ALL precluding a transport defect in AML. Accumulation of long-chain polyglutamates MTX-Glu(4-6) was 3-fold lower for AML-nonM5 compared with c/preB-ALL cells (median 268 versus 889 pmol MTX-Glu(4-6)/10(9) cells; P < or = 0.001); for AML-M5 samples, median accumulation of MTX-Glu(4-6) was 0 pmol/10(9) cells (P < or = 0.001). After short-term MTX exposure, AML-nonM5 was 6-fold more resistant to MTX compared with c/preB-ALL cells (2.16 versus 0.39 microM; P < 0.001), while AML-M5 was 2-fold more resistant (P = 0.02). In both AML-nonM5 and AML-M5 cells, MTX resistance was circumvented by continuous MTX exposure (median TSI(50) values: 0.052 and 0.041 microM, respectively) compared with a c/preB-ALL value of 0.066 microM. In conclusion, AML-M5 is relatively sensitive to MTX compared with other AML-subtypes even though polyglutamylation of MTX is poor. Using continuous exposure, AML-nonM5 and AML-M5 cells were at least as sensitive to MTX as c/preB-ALL cells. This report suggests that MTX might be an overlooked drug in the treatment of childhood AML.
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PMID:A possible role for methotrexate in the treatment of childhood acute myeloid leukaemia, in particular for acute monocytic leukaemia. 1126 59

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.
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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.
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PMID:Multiple mechanisms of resistance to methotrexate and novel antifolates in human CCRF-CEM leukemia cells and their implications for folate homeostasis. 1184 83

Interindividual variability in response to methotrexate could be caused by variable concentrations of thymidylate synthase. We investigated the possible association between a tandem-repeat polymorphism in the thymidylate synthase promoter, of which a triple repeat is associated with increased expression of thymidylate synthase, and outcome of acute lymphoblastic leukaemia in 205 children treated with methotrexate. We obtained DNA samples from buccal epithelial cells, peripheral blood, or bone marrow in remission, and analysed them for the polymorphism by PCR amplification. Individuals who were homozygous for the triple repeat had a poorer outlook than those with other genotypes (odds ratio 4.1, 95% CI 1.9-9.0, p=0.001). Genotyping of thymidylate synthase might make it possible to individualize treatment for patients with acute lymphoblastic leukaemia.
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PMID:Polymorphism of the thymidylate synthase gene and outcome of acute lymphoblastic leukaemia. 1193 85

Limitations of low mol. wt anticancer drugs are short tumor exposure times and toxicity to normal tissue. Methotrexate (MTX) covalently linked to human serum albumin (HSA) as a macromolecular carrier caused tumor regressions concomitant with a favorable toxicity profile in a clinical phase I trial (Hartung et aL, Clin. Cancer Res., 1999, 5, 753). We examined the uptake, intracellular degradation, metabolism and thymidylate synthase (TS) inhibition of MTX-HSA in the T-cell leukemia line CCRF-CEM and the MTX transport resistant clone CCRF-CEM/MTX. The number of MTX molecules per albumin molecule was determined by electrospray mass spectrometry. A loading ratio (LR) of approximately 1.4 mol MTX/albumin revealed intact complexes with one and two MTX molecules/albumin. In the complex with an LR of 5.7, albumin with up to 16 MTX molecules was seen. MTX-HSA was taken up by CCRF-CEM cells via endocytosis and cleaved by lysosomal enzymes. Liberated MTX was a poor substrate of folylpolyglutamate synthetase and was exported into the medium. TS was inhibited and cell survival was impaired by MTX-HSA in a time- and concentration-dependent manner. CCRF-CEM/MTX cells exhibited a growth inhibition of 30-40% after MTX-HSA treatment, but no TS inhibition. The alternative uptake route via endocytosis enables MTX-HSA to overcome transport resistance to MTX.
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PMID:Mode of action of methotrexate-albumin in a human T-cell leukemia line and activity against an MTX-resistant clone. 1204 81

Drug resistance is often a limiting factor in successful chemotherapy. Our laboratory has been interested in studying mechanisms of resistance to drugs that are targeted to the thymidylate biosynthesis pathway especially those that target thymidylate synthase (TS) and dihydrofolate reductase (DHFR). We have used leukemia as a model system to study resistance to methotrexate (MTX) and colorectal cancer as the model system to study 5-fluorouracil (5-FU) resistance. In leukemias, we and others have shown that transport, efflux, polyglutamylation and hydrolase activities are major determinants of MTX resistance. We have further reported that some leukemic cells have an increase in DHFR gene copy number possibly contributing to the resistant phenotype. Recently, we have begun to study in detail the molecular mechanisms that govern translational regulation of DHFR in response to MTX as an additional resistance mechanism. Studies thus far involving colorectal tumors obtained from patients have focused predominantly on the predictive value of levels of TS expression and p53 mutations in determining response to 5-FU. Although the predictive value of these two measures appears to be significant, given the variety of resistance to 5-FU observed in cell lines, it is not likely that these are the only measures predictive of response or responsible for acquired resistance to this drug. The enzyme uridine-cytidine monophosphate kinase (UMPK) is an essential and rate-limiting enzyme in 5-FU activation while dihydropyrimidine dehydrogenase (DPD) is a catabolic enzyme that inactivates 5-FU. Alterations in UMPK and DPD may therefore explain failure of 5-FU response in the absence of alterations in TS or p53. Transcription factors that regulate TS may also influence drug sensitivity. We have found that mRNA levels of the E2F family of transcription factors correlates with TS message levels and are higher in lung metastases than in liver metastases of colorectal cancers. Moreover, gene copy number of the E2F-1 gene appears to be increased in a significant number of samples obtained from metastases of colorectal cancer. We have also generated mutants of both DHFR and TS that confer resistance to MTX as well as 5-FU by random as well as site-directed mutagenesis. These mutants used alone or as fusion cDNAs of the mutants have proven to be useful in transplant studies where transfer of these mutant cDNAs to bone marrow cells have been shown to confer drug resistance to recipients. The fusion cDNAs of DHFR such as the DHFR-herpes simplex virus type 1 thymidine kinase (HSVTK) are also useful for regulation of gene expression in vivo using MTX as the small molecule regulator that can be monitored by positron emission tomography (PET) scanning or by optical imaging using a fusion construct such as DHFR-EGFP.
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PMID:Novel aspects of resistance to drugs targeted to dihydrofolate reductase and thymidylate synthase. 1208 58

We have studied the molecular basis of drug resistance in human CCRF-CEM leukemia cells exposed to high dose intermittent pulses of novel polyglutamatable antifolates that target various folate-dependent enzymes. These include the dihydrofolate reductase (DHFR) inhibitors edatrexate, methotrexate and aminopterin, the thymidylate synthase (TS) inhibitors ZD1694 and GW1843, the glycinamide ribonucleotide formyltransferase (GARTF) inhibitor DDATHF as well as the multitargeted antifolate LY231514 inhibiting both TS, DHFR and GARTF. Fourteen antifolate-resistant sublines were isolated, 11 of which displayed a drug resistance phenotype that was based on impaired folylpoly-gamma-glutamate synthetase (FPGS) activity as these cell lines: 1) typically lost 90-99% of parental FPGS activity; 2) expressed 1.4-3.3-fold less FPGS mRNA (only 4 cell lines); 3) displayed up to 10(5)-fold resistance to polyglutamylation-dependent antifolates including ZD1694 and MTA; 4) retained sensitivity to polyglutamylation-independent antifolates including ZD9331 and PT523; 5) were up to 19-fold hypersensitive to the lipid-soluble antifolates trimetrexate and AG377; 6) had a normal or a small decrease in [(3)H]MTX transport; and 7) had a 2.1-8.3-fold decreased cellular folate pools and a consequently increased folate growth requirement. The remaining 3 antifolate-resistant sublines lost 94-97% of parental [(3)H]MTX transport and thus displayed a high level resistance to all hydrophilic antifolates. To screen for mutations in the hFPGS gene, we devised an RT-PCR single strand conformational polymorphism (SSCP) assay. RT-PCR-SSCP analysis and DNA sequencing showed that only a single FPGS-deficient subline harbored an FPGS mutation (Cys346Phe). Three-dimensional modeling of the human FPGS based on the crystal structure of Lactobacillus casei FPGS suggested that this mutation maps to the active site and interferes with the catalytic activity of the enzyme due to a putative bulky clash between the mutant Phe346 and a native Phe350 within alpha-helix A10 in a highly conserved C-terminal hydrophobic core. This was consistent with a 23-fold decreased affinity of the mutant Cys346Phe FPGS for L-glutamate. We conclude that decreased FPGS activity is a dominant mechanism of resistance to polyglutamylation-dependent novel antifolates upon a high-dose intermittent exposure schedule. The finding that cells may exhibit 5 orders of magnitude of resistance to polyglutamylation-dependent antifolates but in the same time retain parental sensitivity or hypersensitivity to polyglutamylation-independent antifolates or lipophilic antifolates offers a potentially promising treatment strategy in the overcoming of FPGS-based anticancer drug resistance.
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PMID:Loss of folylpoly-gamma-glutamate synthetase activity is a dominant mechanism of resistance to polyglutamylation-dependent novel antifolates in multiple human leukemia sublines. 1249 65

Cellular drug resistance is an important determinant of the response to chemotherapy, and its precise measurement may have clinical relevance. Potential applications are: prognostic factor for risk-group stratification, tailored chemotherapy for subgroups or individual patients with a specific cellular drug resistance profile, determination of cross-resistance patterns, study of drug interactions, study of resistance modulation or circumvention, selection of patients for phase II studies and screening for the cytotoxicity of novel compounds. The colorimetric 4-day MTT assay is a frequently used method. However, a distinction between malignant and non-malignant cells cannot be made, which should be taken into account. In the case of a relatively high percentage of contaminating non-malignant cells, the differential staining cytotoxicity (DiSC) assay can be used. The MTT assay's technical success percentage is about 80% for fresh ALL and AML samples. For methotrexate (MTX) a different assay must be used, such as the thymidylate synthase inhibition assay (TSIA). The MTT assay measures the number of living cells that survived drug exposure. Therefore, the effect of many if not most drugs to induce leukemia cell death by apoptosis is also included. This review mainly summarizes the data on cellular drug resistance in childhood leukemia, as obtained by the MTT assay and TSIA, in our laboratory in Amsterdam. These data clearly demonstrate the significant relation between in vitro cellular drug resistance and clinical and cell biological features and short- and long-term clinical outcome in childhood leukemia. In conclusion, cellular drug resistance testing provides clinically relevant information that can be available within 1 week and can be performed successfully in the vast majority of leukemia samples. The data are more and more being used and being considered for use in clinical trials in leukemia.
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PMID:Clinical significance of cellular drug resistance in childhood leukemia. 1252 9

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