Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the expression of the folylpolyglutamate synthetase (FPGS) gene at the mRNA level in MOLT-3 and K562 human leukemia cell lines sensitive, or made resistant, to methotrexate (MTX) and/or trimetrexate (TMQ), or raltitrexed (ZD1694). Northern blot analysis demonstrated approximately 3-fold higher FPGS mRNA expression in K562 cells than that in MOLT-3 cells, being consistent with graded polyglutamation capacities of these cell lines. A slight increase in the expression of the FPGS gene was observed in the TMQ-resistant MOLT-3 cells (MOLT-3/TMQ800); moreover, sequential development of MTX resistance in the TMQ-resistant cells (MOLT-3/TMQ800-MTX10,000) resulted in a further enhancement of FPGS mRNA expression despite of decreased polyglutamation capacity in this subline. Another MTX-resistant subline with impaired reduced folate carrier (MOLT-3/MTX10,000) also showed overexpression of FPGS mRNA. Conversely, both raltitrexed-resistant sublines (MOLT-3/ZD1694 x C and K562/ZD1694 x C) displayed a moderately decreased expression of FPGS mRNA. These findings did not correspond to the virtual absence of ZD1694 polyglutamates inside the former cells nor to possibly intact polyglutamation capacity in the latter cells. These results indicate that FPGS mRNA expression may predict cellular ability to produce polyglutamate metabolites of antifolate drugs in the sensitive cells, but does not necessarily reflect FPGS function at the enzyme level in the antifolate-resistant tumor cells.
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PMID:Variable expression of the folylpolyglutamate synthetase gene at the level of mRNA transcription in human leukemia cell lines sensitive, or made resistant, to various antifolate drugs. 1050 18

Folates have been co-administered with some antifolates to diminish host toxicity; however, the extent to which this will reduce antitumor activity is not known. To further clarify this issue, studies were undertaken to characterize and quantitate the impact of alterations in intracellular folate levels on the activities of a variety of antifolates in L1210 murine leukemia cells. Intracellular folate cofactor levels increased almost in proportion to the increase in extracellular 5-formyltetrahydrofolate (5-CHO-THF) over a concentration range that encompassed physiological levels of 5-methyltetrahydrofolate. This resulted in a spectrum of increases in the ic50 values of antifolates upon continuous exposure to drugs [Lometrexol (DDATHF) (70x) > trimetrexate (TMQ) (30x), multitargeted antifolate, LY231514 (ALIMTA) (30x) > Raltitrexed, Tomudex (ZD1694) (10x), 6R-2',5'-thienyl-5,10-dideazatetrahydrofolic acid (LY309887) (10x) > methotrexate (MTX) (6x) > (2S)-2-[o-fluoro-p-[N-(2,7-dimethyl-4-oxo-3,4-dihydroquinazolin-6-ylmethyl)-N-(prop-2-ynyl)amino]benzamido]-4-(tetrazol-5-yl) butyric acid (ZD9331) (3x), N(alpha)-(4-amino-4-deoxypteroyl)-N(delta)-hemiphthaloyl-l-ornithine (PT523) (3x)]. Upon a 4-hr pulse exposure to drug, the ic50 values for DDATHF and ALIMTA were increased > 180- and 5-fold, respectively, with only a 2.5-fold increase in the extracellular 5-CHO-THF level within the physiological range. The reductions in drug sensitivities could be attributed to decreases in accumulation of polyglutamate derivatives of ALIMTA and DDATHF. Hence, in these studies, natural folates diminished the activity of agents that undergo polyglutamation by suppression of the formation of these active congeners at the level of folylpolyglutamate synthetase. For inhibitors of dihydrofolate reductase, the suppressive effect of endogenous folates appears to be due to competition between the antifolate and dihydrofolate at the level of the target enzyme. These data should be carefully considered in the design of regimens with antifolates, which incorporate co-administration of folates.
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PMID:Marked suppression of the activity of some, but not all, antifolate compounds by augmentation of folate cofactor pools within tumor cells. 1127 72

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.
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PMID:Folate transport and the modulation of antifolate sensitivity in a methotrexate-resistant human breast cancer cell line. 1629 1


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