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

Five cytotoxic Mannich bases (5-dimethylamino-1-substituted phenyl-1-penten-3-ones), three having antineoplastic activity, were evaluated for respiratory-inhibiting properties in rat liver mitochondria in the presence of four substrates: succinate, glutamate, 3-hydroxybutyrate, and palmitylcarnitine. Four compounds (Ib--Ie) showed significant inhibiting properties which, on occasion, were reversed partially by coenzyme Q10. Evaluation of the spectra of the mitochondrial cytochromes indicated that Ib--Ie blocked the electron transport chain prior to the sequence of cytochromes. Since inhibition occurred when different substrates were used, a common site of action for Ib--Ie is likely; competition of Ib--Ie with coenzyme Q10 probably occurs. Compounds Ia--Ie inhibited RNA polymerase from Swiss mouse kidney cells but were virtually bereft of activity versus RNA polymerase from L-1210 leukemia cells. Polarography of the Mannich bases and the related styryl ketones showed that antineoplastic activity was associated with higher half-wave potentials.
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PMID:Effect of antineoplastic and cytotoxic Mannich Bases derived from conjugated styryl ketones on mitochondrial respiration in rat liver cells. 71 88

A series of Nepsilon-poly-alpha-glutamyl and Nepsilon-polylysyl derivatives of Nalpha-pteroyllysine and Nalpha-homopteroyllysine, analogues of the naturally occurring gamma-polyglutamyl forms of folate, was prepared and tested as substrates for dihydrofolate reductase and as substrates and inhibitors of thymidylate synthetase. Nalpha-Dihydropteroyl-Nepsilon-(tri-alpha-glutamyl)lysine was 1.8 times as active as Nalpha-dihydropteroyl glutamate (dihydrofolate) as a substrate for L1210 murine leukemia dihydrofolate reductase. N-alpha-Dihydropteroyl-Nepsilon-(di-alpha-lysyl)lysine was 1.2 times as active as dihydrofolate in spite of its strong positive charge. The most active compound tested, Nepsilon-(tert-butyloxycarbonyl)lysine, was 3.5 times as active as dihydrofolate. None of the enzymatically prepared Nalpha-tetrahydropteroyllysine derivatives tested was as active as Nalpha-tetrahydropteroyl glutamate (tetrahydrofolate) as a substrate for E. coli thymidylate synthetase. However, there was a progressive increase in activity with the addition of each alpha-glutamyl residue, the Nepsilon-(penta-alpha-glutamyl)lysine being 88% as active as tetrahydrofolate. Nalpha-Tetrahydropteroyl-Nepsilon-(di-alpha-lysyl)lysine was the most active thymidylate synthetase substrate of the polylysine derivatives, being 67% as active as tetrahydrofolate. Addition or deletion of lysyl residues resulted in diminished activity. It is noteworthy that substrate activity is retained in spite of the positively charged poly(amino acid) side chain. None of the enzymatically prepared tetrahydrohomopteroyl derivatives tested was as active as Nalpha-tetrahydrohomopteroyl glutamate (tetrahydrohomofolate) as an inhibitor of E. coli thymidylate synthetase.
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PMID:Polyglutamyl and polylysyl derivatives of the lysine analogues of folic acid and homofolic acid. 79 72

Compound 21 (N10-methyl-4-thiofolic acid) and related compounds were prepared as potential inhibitors of the cofactor forms of tetrahydrofolate. The preparation of 2-acetylamino-4-(benzylthio)-6-chloro-5-nitropyrimidine (4) provided an intermediate that was allowed to react with methyl p-[(3-aminoacetonyl)methylamino]benzoate oxime (16). The oxime function of the resulting 6-substituted aminopyrimidine 6 was hydrolyzed to give the corresponding acetonylaminopyrimidine 7, which on reductive cyclization gave methyl p-[[[2-amino-4-(benzylthio)-7,8-dihydro-6-pteridinyl]methyl]methylamino]benzoate (9). This dihydropteridine was oxidized with potassium permanganate, and the product was treated successively with sodium hydrosulfide to replace the benzylthio group and with aqueous sodium hydroxide to hydrolyze the ester function to give p-[[(2-amino-3,4-dihydro-4-thioxo-6-pteridinyl)methyl]methylamino]benzoic acid (N10-methyl-4-thiopteroic acid, 12). Another route to 12 involved the interaction of 2,5-diamino-4,6-dichloropyrimidine (15) with 16 to give methyl p-[[(2-amino-4-chloro-7,8-dihydro-6-pteridinyl)methyl]methylamino]benzoate (13). Displacement of the chloro group of 13 with sodium hydrosulfide followed by the simultaneous air oxidation of the dihydropteridine ring and saponification of the ester group gave 12. After protection of the 2-amino and 4-thioxo moieties of 12, the resulting intermediate benzoic acid was coupled with diethyl L-glutamate. The product of this reaction was deblocked to give 21. Methylation of 21 gave the corresponding 4-(methylthio) derivative 22, which on reaction with hydrazine gave the 4-hydrazino analog 23 of methotrexate. Reduction of 12 and 21 with sodium hydrosulfite gave the dihydropteridines 24 and 25, respectively. The title compound was an excellent inhibitor of the growth of Streptococcus faecium ATCC 8043. However, this and related compounds were ineffective inhibitors of dihydrofolic reductase and showed no significant activity in either the KB cell culture screen or against L1210 leukemia cells in mice.
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PMID:Synthesis of N-10-methyl-4-thiofolic acid and related compounds. 80 32

The synthesis of a novel series of gamma-substituted folic acid analogues, pteroyl-S-alkyl-DL-homocysteine (RS)-sulfoximines, and the corresponding S-methylhomocysteine sulfone is described. Side reactions of the sulfoximine groups of the amino acid ester reactants were considered. The correct structures of the isolated target compounds were confirmed by NMR and FAB/MS excluding other alternatives. The replacement of the gamma-COOH of the glutamate moiety of folic acid with S-alkylsulfoximine groups or S-methylsulfone did not affect the substrate activity of the vitamin for dihydrofolate reductase. The resulting tetrahydrofolate analogues could serve as cofactors for the thymidylate synthase cycle of murine leukemia L1210 cells in situ. The analogues inhibited the growth of these cells in culture with 2 orders of magnitude lower IC50 values [(2-4) x 10(-4) M] than the parent folic acid.
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PMID:Synthesis and biological activity of novel folic acid analogues: pteroyl-S-alkylhomocysteine sulfoximines. 156 Apr 36

Dolastatin 15, a seven-subunit depsipeptide derived from Dolabella auricularia, is a potent antimitotic agent structurally related to the antitubulin agent dolastatin 10, a five-subunit peptide obtained from the same organism. We have compared dolastatin 15 with dolastatin 10 for its effects on cells grown in culture and on biochemical properties of tubulin. The IC50 values for cell growth were obtained for dolastatin 15 with L1210 murine leukemia cells, human Burkitt lymphoma cells, and Chinese hamster ovary (CHO) cells (3, 3, and 5 nM with the three cell lines, respectively). For dolastatin 10, IC50 values of 0.4 and 0.5 nM were obtained with the L1210 and CHO cells, respectively. At toxic concentrations dolastatin 15 caused the leukemia and lymphoma cells to arrest in mitosis. In the CHO cells both dolastatin 15 and dolastatin 10 caused moderate loss of microtubules at the IC50 values and complete disappearance of microtubules at concentrations 10-fold higher. Despite its potency and the loss of microtubules in treated cells, the interaction of dolastatin 15 with tubulin in vitro was weak. Its IC50 value for inhibition of glutamate-induced polymerization of tubulin was 23 microM, as compared to values of 1.2 microM for dolastatin 10 and 1.5 microM for vinblastine. Dolastatin 10 noncompetitively inhibits the binding of vincristine to tubulin, inhibits nucleotide exchange, stabilizes the colchicine binding activity of tubulin, and inhibits tubulin-dependent GTP hydrolysis (Bai et al., Biochem Pharmacol 39: 1941-1949, 1990; Bai et al. J Biol Chem 265: 17141-17149, 1990). Only the latter reaction was inhibited by dolastatin 15. Nevertheless, its structural similarity to dolastatin 10 indicates that dolastatin 15 may bind weakly in the "vinca domain" of tubulin (a region of the protein we postulate to be physically close to but not identical with the specific binding site of vinca alkaloids and maytansinoids), presumably in the same site as dolastatin 10 (the "peptide site").
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PMID:Dolastatin 15, a potent antimitotic depsipeptide derived from Dolabella auricularia. Interaction with tubulin and effects of cellular microtubules. 163 20

Phosphate-activated glutaminase is found in mammalian small intestine, brain, and kidney, but not in liver. The enzyme initiates the catabolism of glutamine as the principal respiratory fuel in the small intestine, may synthesize the neurotransmitter glutamate in the brain, and functions in the kidney to help maintain systemic pH homeostasis. Interleukin-9 (IL9) is a relatively new cytokine that supports the growth of helper T-cell clones, mast cells, and megakaryoblastic leukemia cells. cDNA clones have recently been obtained for each of these genes. The human loci for phosphate-activated glutaminase (GLS) and IL9 have previously been mapped to chromosomes 2 and 5, respectively, by analysis of somatic cell hybrid DNAs. By using chromosomal in situ hybridization, we have regionally mapped GLS to 2q32----q34 and IL9 to 5q31----q35.
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PMID:Regional localization of the human glutaminase (GLS) and interleukin-9 (IL9) genes by in situ hybridization. 168 Jun 6

Histamine was coupled to poly(L-glutamate) (PLG) to give a copolymer, poly(glutamylhistamineglutamate) (PHG), with approx. 40% of carboxyl groups in PLG being modified. Unlike either poly(L-histidine) (PLH) or PLG, PHG precipitated only in buffers with pH between 4 and 5. A complex was formed between PHG and poly(L-lysine) (PLL) at pH 7, but it was rapidly dissociated at pH 5 or lower. When PHG-linked transferrin (Tf-PHG) was used to deliver a PLL-conjugated [3H]methotrexate ([3H]MTX-PLL) in K562 leukemia cell cultures, an intracellular accumulation of the radioactivity was observed. These results suggest that a copolymer with both imidazole and carboxyl groups can be useful in the design of acid-sensitive, carrier-mediated drug delivery systems.
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PMID:Acid-sensitive dissociation between poly(lysine) and histamine-modified poly(glutamate) as a model for drug-releasing from carriers in endosomes. 169 60

5,10-Dideazatetrahydrofolic acid (DDATHF) is a new potent antitumor agent that specifically inhibits purine biosynthesis, primarily through inhibition of glycinamide ribonucleotide transformylase, the first of the tetrahydrofolate-requiring enzymes in the de novo synthesis pathway. DDATHF has been shown to be an excellent substrate for mouse liver folylpolyglutamate synthetase in vitro, suggesting that intracellular conversion to polyglutamates could play an important role in the action of this antifolate. In this report, metabolic studies of the 6R-diastereomer of DDATHF in the cultured human leukemia cell lines CCRF-CEM and HL-60 are presented. At both 1 and 10 microM (6R)-DDATHF was rapidly converted to polyglutamates in both cell lines. DDATHF(Glu)5 and DDATHF(Glu)6 were the main intracellular metabolites. After incubation in drug-free medium, (6R)-DDATHF polyglutamates were better retained intracellularly with increasing glutamate chain length. (6R)-DDATHF showed reduced cytotoxicity toward a folylpolyglutamate synthetase-deficient cell line, CCRF-CEM30/6 related to a dramatically diminished accumulation of polyglutamates. The activity of (6R)-DDATHF in CCRF-CEM30/6 cells was decreased after both short and prolonged exposures. These results suggest that polyglutamylation of (6R)-DDATHF not only represents a mechanism for trapping the drug inside the cells but also produces a more potent inhibitor of the target enzyme.
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PMID:Intracellular metabolism of 5,10-dideazatetrahydrofolic acid in human leukemia cell lines. 170 76

Five analogues of methotrextate (MTX), 10-deazaaminopterin (10-DAM), and 10-ethyl-10-deazaaminopterin (10-EDAM) in which the glutamate moiety was replaced by either a gamma-methyleneglutamate or beta-hydroxyglutamate were synthesized and evaluated for their antifolate activity. These analogous are 4-amino-4-deoxy-N10-methylpteroyl-beta-hydroxyglutamic acid (1), 4-amino-4-deoxy-10-deazapteroyl-beta-hydroxyglutamic acid (2), 4-amino-4-deoxy-N10-methylpteroyl-gamma-methyleneglutamic acid (3, MMTX), 4-amino-4-deoxy-10-deazapteroyl-gamma-methyleneglutamic acid (4, MDAM), and 4-amino-4-deoxy-10-ethyl-10-deazapteroyl-gamma-methyleneglutamic acid (5, MEDAM). None of these compounds were metabolized to the respective polyglutamate derivative as judged by their inability to serve as substrates for CCRF-CEM human leukemia cell folylpolyglutamate synthetase (FPGS) in vitro. All compounds inhibited recombinant human-dihydrofolate reductase (DHFR) at nearly equivalent magnitude as MTX. Growth-inhibition studies with H35 hepatoma, Manca human lymphoma, and CCRF-CEM human leukemia cells established greater cytotoxic effects with compounds 3-5 than with compounds 1 and 2. gamma-Methyleneglutamate derivatives 3-5 were transported to H35 hepatoma cells better than MTX or beta-hydroxyglutamate derivatives 1 and 2. Compound 3 was 2.5 times better than MTX in competing with folinic acid transport in H35 hepatoma cells. Compound 1 did not have a significant inhibitory effect on folinic acid transport even at 50 microM under identical conditions. The IC50 for compound 1 against H35-hepatoma cell growth was 8.5-fold higher than MTX. Compounds with the gamma-methyleneglutamate moiety (3-5) exhibited almost equal or lower IC50 values than MTX against the growth of CCRF-CEM human leukemia cells. These studies show that on continuous exposure, the non-polyglutamylatable inhibitors DHFR (3-5) can exhibit superior antifolate activity compared to the polyglutamylatable methotrexate, presumably due to their enhanced transport to these cell lines. Compounds 3-5 appear to be excellent models to study the role of polyglutamylation of antifolates in antitumor activity and host toxicity.
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PMID:Folate analogues. 34. Synthesis and antitumor activity of non-polyglutamylatable inhibitors of dihydrofolate reductase. 199 21

Determinants of methotrexate (MTX) resistance in cell lines resistant to short, but not continuous, MTX exposure were investigated since such lines may have relevance to clinical resistance. CCRF-CEM R30dm (R30dm), cloned from CCRF-CEM R30/6 (a MTX-resistant subline of the CCRF-CEM human leukemia cell line), had growth characteristics similar to CCRF-CEM. R30dm was resistant to a 24-h exposure to levels as high as 300 microM MTX but was as sensitive as CCRF-CEM to continuous MTX exposure. MTX resistance of R30dm was stable for greater than 68 weeks in the absence of selective pressure. Initial velocities of MTX transport were comparable for R30dm and CCRF-CEM, as were dihydrofolate reductase specific activity and MTX binding. A 2-fold thymidylate synthase activity decrease for R30dm from that of CCRF-CEM was not a significant factor in R30dm MTX resistance. Decreased MTX poly(gamma-glutamate) synthesis resulted in lower levels of drug accumulation by R30dm. Decreased polyglutamylation was attributable to folylpolyglutamate synthetase (FPGS) activity in R30dm extracts which was 1, 2, and less than or equal to 10% of CCRF-CEM extracts with the substrates MTX, aminopterin, and naturally occurring folates, respectively. Comparison of cell lines with varying levels of resistance to short term MTX exposure indicated that the extent of MTX resistance was proportional to the reduction of FPGS activity. The evidence supported decreased FPGS activity as the mechanism of resistance to short MTX exposure in the cell lines investigated.
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PMID:Decreased folylpolyglutamate synthetase activity as a mechanism of methotrexate resistance in CCRF-CEM human leukemia sublines. 200 75


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