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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)
The inhibitory effects of N10-propargyl-5,8-dideazafolic acid (CB3717), a quinazoline antifolate and a potent thymidylate synthase inhibitor, were evaluated in human leukemia cell lines resistant to methotrexate (MTX) and trimetrexate (TMQ). MTX-resistant MOLT-3 cell lines, MOLT-3/MTX200 and MOLT-3/MTX10,000, were cross-resistant to CB3717; however, the degree of resistance was only tenfold for both cell lines, and increased
dihydrofolate reductase
activity in MOLT-3/MTX10,000 had little influence on the degree of CB3717 resistance. The MOLT-3 cell line made resistant to TMQ, MOLT-3/TMQ200, was as sensitive to CB3717 as the parent line. The cell growth inhibitory effect of CB3717 on MOLT-3 was reversed by the addition of thymidine.
Leucovorin
also partially reversed CB3717-induced growth inhibition. Cellular uptake of MTX and 5-methyl-tetrahydrofolate was hindered by the presence of a high concentration of CB3717, whereas TMQ uptake was not influenced by CB3717. CB3717 appears to enter the cells not only through reduced folate transport system, but by other route(s). CB3717 does not share the transport pathway with TMQ. Our observations that MTX-resistant cells with increased
dihydrofolate reductase
are not more resistant than cells without increased enzyme activity, and that TMQ-resistant cells are not cross-resistant to CB3717, may have clinical relevance.
...
PMID:N10-propargyl-5,8-dideazafolic acid (CB3717): inhibitory effects on human leukemia cell lines resistant to methotrexate or trimetrexate. 143 41
Piritrexim, a lipid-soluble antifolate, was evaluated for its activity against Pneumocystis carinii and Toxoplasma gondii. The concentration of piritrexim needed to inhibit 50% of the catalytic activity of P. carinii
dihydrofolate reductase
(
DHFR
) was 19.3 nM, and that for T. gondii
DHFR
was 17.0 nM, concentrations that were 40- to over 1,000-fold less than those needed for the inhibition of activity by trimethoprim and pyrimethamine, the antifolates conventionally used in treating these organisms. Piritrexim was able to inhibit replication of T. gondii in a mouse peritoneal macrophage model at concentrations of 0.1 to 1.0 microM.
Leucovorin
, a reduced folate that can bypass the inhibition of
DHFR
by antifols in mammalian cells but not in protozoa, did not affect the ability of piritrexim to inhibit T. gondii replication. The addition of sulfadiazine, which alone was ineffective, to piritrexim allowed inhibition of T. gondii replication at lower concentrations of piritrexim than when piritrexim was used alone. These results suggest that piritrexim, alone or combined with a sulfonamide, may be a highly potent antitoxoplasma and antipneumocystis agent that could provide major pharmacologic and clinical advantages over available agents.
...
PMID:Potent antipneumocystis and antitoxoplasma activities of piritrexim, a lipid-soluble antifolate. 296 69
Pretreatment of L1210 cells with methotrexate in concentrations which produced free intracellular methotrexate and near maximal inhibition of
dihydrofolate reductase
resulted in an enhancement of intracellular 5-fluorouracil (FUra) accumulation. This enhancement of FUra accumulation was maximum (5-fold increase) after a 6-h exposure to 100 microM methotrexate. The nucleotide derivatives of FUra, including a 5-fluoro-2'-deoxyuridylate, and 5-fluorouridine-5'-triphosphate were also increased nearly 5-fold following methotrexate treatment. In cells pretreated with methotrexate, there was an increase in intracellular 5-phosphoribosyl-1-pyrophosphate pools which ranged from 2 to 8 times control values following concentrations of methotrexate between 0.1 microM and 10 microM. Both the increase in 5-phosphoribosyl-1-pyrophosphate and FUra accumulation could be prevented by the addition of
Leucovorin
(N5-formyltetrahydrofolate) at concentrations which rescued cells from the inhibitory effects of methotrexate. Pretreatment with 6-methylmercaptopurine riboside, which inhibits amidophosphoribosyltransferase, the first committed step in de novo purine synthesis, also resulted in a similar elevation in 5-phosphoribosyl-1-pyrophosphate pools and enhancement of FUra accumulation. If the 5-phosphoribosyl-1-pyrophosphate pools were reduced following methotrexate pretreatment by the addition to the cultures of hypoxanthine, which utilizes 5-phosphoribosyl-1-pyrophosphate for the conversion to IMP, the intracellular accumulation of FUra was not enhanced. Also, if the inhibitor of 5-phosphoribosyl-1-pyrophosphate synthetase, 7-deazaadenosine, was given to cultures with methotrexate, there was no increase in 5-phosphoribosyl-1-pyrophosphate pools, nor enhancement of FUra accumulation. In addition, when 5-fluoro-2'-deoxyuridine was added with the methotrexate to cell cultures, there was no increase in 5-phosphoribosyl-1-pyrophosphate pools, nor enhancement of intracellular FUra accumulation. These results indicate that the ability of methotrexate to enhance FUra accumulation was probably the consequence of the antipurine effect of methotrexate which resulted in a reduction of the complex feedback inhibition on 5-phosphoribosyl-1-pyrophosphate synthesis and utilization. The resultant increased 5-phosphoribosyl-1-pyrophosphate pools were then capable of being utilized for the conversion of FUra to 5-fluorouridylate, the possible rate-limiting step in FUra intracellular metabolism and the major determinant of the rate of intracellular FUra accumulation. When methotrexate preceded FUra, there was synergistic cell killing as determined by soft agar cloning. The exact mechanism of this sequential synergistic antitumor activity may be the result of the enhanced incorporation of FUra into RNA, since the increased 5-fluoro-2'-deoxyuridylate which is formed is unlikely to increase substantially the inhibition of dTMP synthesis induced by methotrexate pretreatment.
...
PMID:The influence of methotrexate pretreatment on 5-fluorouracil metabolism in L1210 cells. 616 26
Trimetrexate is a novel lipophilic folate antagonist that causes growth inhibition, inhibition of nucleic acid biosynthesis, and cytotoxicity at nanomolar concentrations in tissue cultures. The potency of trimetrexate cytotoxicity against most cell lines is greater than that of methotrexate. Trimetrexate has antitumor activity in vivo in several murine leukemia and solid tumor systems, including tumors in which methotrexate is inactive. Antitumor activity was seen following oral, intravenous, or intraperitoneal administration. Trimetrexate causes a pronounced and early depression in incorporation of deoxyuridine into DNA. In tumor cell lines resistant to methotrexate because of a drug transport defect, trimetrexate retains activity. In many such cases the methotrexate-resistant tumors show collateral sensitivity to trimetrexate. In methotrexate-resistant cells with impaired drug transport, trimetrexate sensitivity was even more pronounced when cells were grown in folate-free medium supplemented with physiological levels of tetrahydrofolate cofactor. In the human tumor stem cell colony assay, trimetrexate, at concentrations achievable in vivo, gave activity against many human tumors, including samples that were unresponsive to methotrexate. Trimetrexate crosses the blood-brain barrier, and at very high doses may cause neurotoxicity. At conventional doses the primary toxic effects in mice are gastrointestinal. This toxicity is reversible at therapeutic doses. Unlike earlier lipophilic antifolates, trimetrexate has rapid plasma clearance (t1/2 in mice of 45 minutes). Trimetrexate is a tight-binding competitive inhibitor of
dihydrofolate reductase
. The Ki,slope for inhibition of the human enzyme was 4 X 10(-11) M. A dose-dependent decrease in cellular purine ribonucleotide pools is given by trimetrexate. Pyrimidine ribonucleotide pools tend to increase in treated cells. Trimetrexate caused a marked depression of cellular pools of dTTP and dGTP, and a lesser depression in dATP. Cytotoxicity of trimetrexate in vitro was prevented by leucovorin.
Leucovorin
also protected mice from trimetrexate toxicity. Thymidine protected cells from lethal effects of low concentrations of trimetrexate, but not from high concentrations. The combination of thymidine and hypoxanthine completely protected cells from low and high concentrations of trimetrexate. A new, stable and highly water-soluble formulation of trimetrexate has been developed. Because of the interesting biochemical and pharmacological properties of trimetrexate, and its experimental antitumor activity, clinical trials are planned.
...
PMID:Biochemical pharmacology of the lipophilic antifolate, trimetrexate. 623 75
Methotrexate is a chemotherapy antimetabolite, folic acid antagonist, that inhibits the enzyme
dihydrofolate reductase
resulting in decreased levels of tetrahydrofolate in the cells. This in turn blocks synthesis of thymidylate, a nucleotide necessary for DNA synthesis. It is readily absorbed from the gastrointestinal tract. Toxicity from overdose can affect multiple organ systems including bone marrow, liver, intestinal tract, kidneys, lungs, skin, and blood vessels, resulting in death in severe cases. Methotrexate is widely used to treat neoplastic disease, dermatologic disorders (psoriasis), and rheumatologic disorders (severe rheumatoid arthritis). As its indications for use increase, more accidental overdoses can be expected. We present the treatment and clinical course of one such case, that of a 2-year-old who accidentally took her grandmother's arthritis pills. Her initial serum level was 10 times greater than that needed to cause toxicity. She was treated with gastric lavage, activated charcoal, leucovorin rescue, and ICU admission. Her clinical course was unremarkable, and the only evidence of toxicity was a mild elevation in a liver-associated enzyme that resolved without any clinical sequela.
Leucovorin
at a dose equal to or greater than the possible ingestion should be given as soon as possible in methotrexate overdoses.
...
PMID:Pediatric case of accidental oral overdose of methotrexate. 1038 2
