Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 5-deaza and 5,8-dideaza analogues of N alpha-pteroyl-L-ornithine (Pter-Orn), the 5-deaza, 8-deaza, and 5,8-dideaza analogues of N alpha-(4-amino-4-deoxypteroyl)-L-ornithine (APA-Orn), and the N delta-carboxymethyl derivative of N alpha-(4-amino-4-deoxy-N10-methylpteroyl)-L-ornithine (mAPA-Orn) were synthesized and tested as inhibitors of dihydrofolate reductase (DHFR) and as inhibitors of tumor cell growth in culture. Reductive amination of 2-acetamido-6-formylpyrido[2,3-d]pyrimidine-4(3H)-one with methyl N alpha-(4-aminobenzoyl)-N delta-(benzyloxycarbonyl)-L-ornithinate followed by removal of the blocking groups afforded the 5-deaza analogue of Pter-Orn, whereas N-alkylation of methyl N alpha-(4-aminobenzoyl)-N delta-(benzyloxycarbonyl)-L-ornithinate with 2-amino-6-(bromomethyl)quinazolin-4(3H)-one and deprotection gave the corresponding 5,8-dideaza analogue. Reductive coupling of 2,4-diaminopyrido[2,3-d]pyrimidine-6-carbonitrile and 4-aminobenzoic acid followed by reaction with 95-97% formic acid yielded 4-amino-4-deoxy-5-deaza-N10-formylpteroic acid, which on condensation with methyl N delta-(benzyloxycarbonyl)-L-ornithinate and deprotection gave the 5-deaza analogue of APA-Orn. A similar sequence starting from 2,4-diamino-quinazoline-6-carbonitrile led to the corresponding 5,8-dideaza compound, whereas treatment of 2,4-diamino-pyrido[3,2-d]pyrimidine-6-methanol with phosphorus tribromide followed by condensation with methyl N alpha-(4-aminobenzoyl)-N delta-(benzyloxycarbonyl)-L-ornithinate and deprotection afforded the 8-deaza analogue. For the preparation of the N delta-carboxymethyl derivative of mAPA-Orn, N alpha-(benzyloxycarbonyl)-L-ornithine was subjected to N delta-monoalkylation with glyoxylic acid and sodium cyanoborohydride, followed by N delta-acylation with ethyl trifluoroacetate, N alpha-deprotection by hydrogenolysis, condensation with 4-amino-4-deoxy-N10-methylpteroic acid, and N delta-deprotection by gentle treatment with ammonia. The 2,4-diamino derivatives all inhibited the growth of tumor cells in culture, with IC50 values of 0.2-2 microM, and inhibited purified DHFR with IC50 values of 0.02-0.08 microM. Deletion of ring nitrogens and N delta-carboxymethylation both increased potency in the cell growth assay; however, the ornithine derivatives were less potent than aminopterin or methotrexate.
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PMID:Synthesis and in vitro biological activity of new deaza analogues of folic acid, aminopterin, and methotrexate with an L-ornithine side chain. 201 22

We have studied DNA repair after UV damage in the murine c-myc locus. It appears that a region in B cells upstream of the murine c-myc gene is repaired with a different efficiency in plasmacytoma-resistant DBA/2N mice than in plasmacytoma-susceptible BALB/cAn mice. The region just upstream of c-myc is inefficiently repaired in B lymphoblasts derived from BALB/cAn mice. In contrast, this same region of c-myc is efficiently repaired in B lymphoblasts derived from DBA/2N mice. DNA fragments located in the coding region of c-myc and in another gene, dihydrofolate reductase (DHFR), are repaired with equal efficiency in cells from these two strains of mice. It is possible that repair efficiency of the 5' flank of c-myc may be involved in tumor susceptibility of the mouse strain.
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PMID:DNA repair in the c-myc locus. 207 8

Peritoneal cells were derived from a patient (PK) with adenocarcinoma of the colon during the course of cisplatin/5-fluorouracil (5-FUra) treatment. Resistance to cisplatin and 5-FUra, characterized by a lack of response to chemotherapy and continued growth of the tumor, was concomitantly associated with a 2-4-fold increase in DNA copy number for dTMP synthase and dihydrofolate reductase. There was a corresponding amplification in DNA copy number of the c-myc (2X), H-ras (4X), and c-fos (15X) oncogenes. Cytogenetic studies revealed an iso (13q) chromosome, but failed to show any double minutes or homogeneously staining regions. In addition, drug-resistant tumor cells from PK and another patient (HG) displayed enhanced expression of dTMP synthase, c-fos and DNA polymerase beta when compared to normal colon tissue and the HCT8 human colon carcinoma cell line. These results suggest that elevated oncogene DNA and gene expression may be involved in the development of cisplatin resistance.
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PMID:Differential oncogene amplification in tumor cells from a patient treated with cisplatin and 5-fluorouracil. 214 97

We studied the effects of helper-dependent parvovirus AAV [adeno-associated virus] type 2 on carcinogen-inducible resistance to methotrexate (MTX) and adriamycin (ADR) in Chinese hamster ovary cells. Both types of drug resistance were monitored by determination of the number of drug-resistant colonies normalized for the respective value of plating efficiency under non-selective conditions. Treatment of cells with N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) drastically enhanced the frequency of resistance to MTX and ADR. By contrast, infection of cells with AAV-2 prior to treatment with MNNG markedly inhibited carcinogen-induced drug resistance. Infection by AAV alone did not exert any effect. Analysis of the dihydrofolate reductase (dhfr) gene copy numbers of individual MTX-resistant clones derived from MNNG-treated and non-treated cultures revealed similar frequencies (60-80%) and amplitudes of dhfr gene amplification (2- to 8-fold) irrespective of prior AAV treatment. Hence, carcinogen-induced enhancement of MTX-resistance could reflect an increase in the frequency of dhfr gene amplification among the survivors of MNNG treatment. On the other hand, inhibition of carcinogen-inducible drug resistance by AAV suggests an interference of the virus with cellular responses to genotoxic stress, thus leading to enhanced cell killing under altered growth conditions. Possible mechanisms responsible for the inhibitory effect of AAV and its relevance in relation to tumor chemotherapy are discussed.
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PMID:Inhibition of N-methyl-N'-nitro-N-nitrosoguanidine-induced methotrexate and adriamycin resistance in CHO cells by adeno-associated virus type 2. 216 3

Acquired resistance of the L1210 leukemia in mice developed with less rapidity during therapy with edatrexate (10-ethyl-10-deazaaminopterin, EDX) than with MTX. Since this was explained only partially by the somewhat greater antitumor activity of EDX, this result may also reflect a difference in biochemical phenotypes selected in each case. Among 20 sublines selected for resistance to MTX, a reduction in influx, an elevation of DHFR, and a reduction of DHFR inhibition by MTX were all delineated. Among 14 sublines selected for resistance to EDX, both a reduction in influx and an elevation in level of DHFR were also commonly found. In addition, however, 7 of 14 EDX-resistant sublines exhibited a reduction in the level of folylpolyglutamate synthetase (FPGS) activity. Clonal derivatives of these 7 EDX-resistant cell lines exhibited 2- to 28-fold reductions in FPGS activity and a commensurate reduction in [3H]-MTX polyglutamate formation in situ following exposure to [3H]-MTX during growth in mice. An analysis of the kinetics and relative substrate preferences for FPGS from variant and parental L1210 cells revealed that the various changes in FPGS activity were at the level of the Vmax rather than Km. These results derived from an in vivo tumor model provide further evidence for a role of FPGS as a determinant of cytotoxicity and acquired resistance to classical folate analogs. They also provide evidence in the same pharmacologic model for a manifestation of resistance to 4-aminofolates in vivo that involves all of the alterations of its primary target, transport, and metabolism that have ever been associated with acquired resistance in cell culture systems.
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PMID:Preferential selection during therapy in vivo by edatrexate compared to methotrexate of resistant L1210 cell variants with decreased folylpolyglutamate synthetase activity. 220 78

Gene amplification is frequently observed in tumors and transformed cell lines. This phenomenon is known to contribute to the generation of drug-resistant tumor cells and quantitation of the event is believed to have prognostic value in several types of neoplasias. To date, most studies of gene amplification have used immortalized cell lines and biopsied tumor samples. In this study I examine the amplification potentials of primary diploid cells, both human and rodent, and quantitatively compare them to the amplification potentials of their transformed counterparts. I have used a strictly defined protocol (i.e., selection at a stringency of 9 X LD50) to measure amplification potential at two loci, the gene for the multifunctional protein containing activities for carbamoyl phosphate synthase, aspartate transcarbamylase, and dihydroorotase (CAD) and the gene for dihydrofolate reductase (DHFR). I find that the frequency of amplification in transformed cells is at least four orders of magnitude greater than that in normal cells. Out of 29 cell populations studied, the 7 diploid normal cell populations exhibited no detectable amplification frequency (limit of detection at 10(-8) whereas the 22 transformed cell lines demonstrated amplification frequencies between 10(-3) and 10(-7). These results demonstrate that a dramatic difference exists between primary diploid cell populations and immortalized cell populations in their ability to amplify genomic sequences and suggests a significant difference in genetic stability between these two cell types.
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PMID:Normal diploid human and rodent cells lack a detectable frequency of gene amplification. 232 71

An increased number of copies of specific genes may offer an advantage to cells when they grow in restrictive conditions such as in the presence of toxic drugs, or in a tumor. Three mathematical models of gene amplification and deamplification are proposed to describe the kinetics of unstable phenotypes of cells with amplified genes. The models differ in details but all assume probabilistic mechanisms of increase and decrease in gene copy number per cell (gene amplification/deamplification). Analysis of the models indicates that a stable distribution of numbers of copies of genes per cell, observed experimentally, exists only if the probability of deamplification exceeds the probability of amplification. The models are fitted to published data on the loss of methotrexate resistance in cultured cell lines, due to the loss of amplified dihydrofolate reductase gene. For two mouse cell lines unstably resistant to methotrexate the probabilities of amplification and deamplification of the dihydrofolate reductase gene on double minute chromosomes are estimated to be approximately 2% and 10%, respectively. These probabilities are much higher than widely presumed. The models explain the gradual disappearance of the resistant phenotype when selective pressure is withdrawn, by postulating that the rate of deamplification exceeds the rate of amplification. Thus it is not necessary to invoke a growth advantage of nonresistant cells which has been the standard explanation. For another analogous process, the loss of double minute chromosomes containing the myc oncogene from SEWA tumor cells, the growth advantage model does seem to be superior to the amplification and deamplification model. In a more theoretical section of the paper, it is demonstrated that gene amplification/deamplification can result in reduction to homozygosity, such as is observed in some tumors. Other applications are discussed.
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PMID:Mathematical models of gene amplification with applications to cellular drug resistance and tumorigenicity. 237 24

We examined the in vitro activity of 2-desamino-5,8-dideazafolate and 2-desamino-N10-propargyl-5,8-dideazafolate (desamino-CB3717), the more water-soluble 2-desamino analogues of 5,8-dideazafolate and N10-propargyl-5,8-dideazafolic acid (CB3717). We report Ki values for the inhibition of L1210 thymidylate synthase (TS) of 2 and 0.027 microM for 2-desamino-5,8-dideazafolate and desamino-CB3717, respectively, indicating a 30- and 10-fold loss in TS-inhibitory activity compared with the corresponding 2-NH2 compounds. The synthetic tri- and tetrapolyglutamate derivatives of desamino-CB3717 were 66- and 101-fold more potent than the monoglutamate form as inhibitors of TS. Both desamino compounds were more potent as inhibitors of L1210 and W1L2 cell growth than were their 2-amino counterparts. 2-Desamino-5,8-dideazafolate retains quite good activity against both the TS-overproducing W1L2:C1 line and the L1210 cell line grown in the presence of thymidine, suggesting that a secondary locus of action may be involved. This other target is a folate-dependent enzyme as evidenced by the protection of the inhibition of cell growth by the addition of hypoxanthine or folinic acid together with thymidine. The methotrexate-resistant, dihydrofolate reductase-overproducing L1210:R7A cell line is cross-resistant to 2-desamino-5,8-dideazafolate, which suggests that dihydrofolate reductase is the other target. An L1210 subline (1565) unable to transport reduced folates is 10-fold resistant to desamino-CB3717 and 2-desamino-5,8-dideazafolate but is not cross-resistant to CB3717 or 5,8-dideazafolate. The removal of the 2-amino function of CB3717 did not affect folylpolyglutamate synthetase substrate activity (CB3717 Km = 48 microM, desamino-CB3717 Km = 40 microM). However, both 5,8-dideazafolate and its desamino analogue were about 10-fold better substrates for folylpolyglutamate synthase than were the N10-propargyl compounds, and this may contribute to their good growth-inhibitory properties. In vivo, desamino-CB3717 cured approximately 75% of mice bearing the L1210:ICR tumor at doses of 50 mg/kg daily for 5 days and above (maximum tolerated dose greater than 1000 mg/kg daily for 5 days).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Activity of the thymidylate synthase inhibitor 2-desamino-N10-propargyl-5,8-dideazafolic acid and related compounds in murine (L1210) and human (W1L2) systems in vitro and in L1210 in vivo. 238 29

Low-level methotrexate (MTX) resistance (less than 20-fold) was induced by gradual selection pressure in four human head and neck squamous cell carcinoma lines established in culture from biopsies of patients not previously treated with MTX. Each parental and resistant line was characterized with respect to MTX uptake and polyglutamylation, dihydrofolate reductase (DHFR) content, and growth rate. Relative DHFR gene copy numbers and amounts of DHFR-related cytoplasmic messenger RNA were analyzed by plasmid complementary DNA hybridization in a dot blot assay and were correlated with the amount of gene product. The resistant lines were not cloned in order to simulate in vitro the conditions which might exist in an in vivo setting, where multiple resistant subpopulations of cells may be present in a tumor. The study was restricted to cells with low-level resistance since these are likely to be the clinically most relevant type. Of the four resistant lines characterized, one showed a severe defect in MTX uptake and polyglutamylation, another was a DHFR overproducer with only small changes in uptake and polyglutamylation, a third was likewise a DHFR overproducer but also showed lower MTX uptake, and the fourth was minimally altered except for growth rate. The diversity in resistance phenotype among these cells in vitro suggests that in vivo resistance in patients with head and neck carcinoma who are treated with MTX may similarly involve multiple mechanisms and that further therapeutic intervention using MTX or other antifolates should take this into account.
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PMID:Phenotypic heterogeneity in cultured human head and neck squamous cell carcinoma lines with low-level methotrexate resistance. 241 40

Previous studies from this laboratory have shown that the addition of leucovorin to tumor cells dissociates methotrexate, but not methotrexate polyglutamates, from dihydrofolate reductase (L. H. Matherly, D. W. Fry, and I. D. Goldman, Cancer Res., 43: 2694-2699, 1983). To further assess the importance of these interactions to leucovorin rescue, antifolate growth inhibition toward L1210 cells in the presence of leucovorin was correlated with the metabolism of (6S)-5-formyl tetrahydrofolate to dihydrofolate as a measure of dihydrofolate reductase activity. Growth inhibition (greater than 95%) by methotrexate (5-10 microM) following its intracellular polyglutamylation during a 3-h preexposure, or by continuous treatment with high levels of the lipophilic antifolate, trimetrexate (1 microM), was only slightly diminished by 10 microM leucovorin (15-25%). High-pressure liquid chromatographic analyses of the derivatives formed from radiolabeled (6S)-5-formyl tetrahydrofolate under these conditions showed an incomplete conversion to dihydrofolate and metabolism to predominantly 10-formyl tetrahydrofolate. Neither of the antifolates interfered appreciably with the metabolism of the folate derivatives to polyglutamates. Growth inhibition in the presence of leucovorin correlated with the accumulation of dihydrofolate (1.5-2.2 nmol) from radiolabeled (6S)-5-formyl tetrahydrofolate, reflecting continued suppression of dihydrofolate reductase activity at these drug concentrations. With lower equitoxic levels of the trimetrexate (7.5 nM), the provision of leucovorin allowed for a restoration of cell growth to a level greater than 90% of control. Under these conditions, control levels of dihydrofolate (0.2 nmol) were formed from radiolabeled cofactor, consistent with sustained dihydrofolate reductase activity. These findings support a role for the activation of dihydrofolate reductase as an important component of the reversal of the effects of diaminoantifolates by leucovorin, presumably by a competitive displacement of drug from the enzyme. Since no displacement occurs in cells which have accumulated methotrexate polyglutamates, or in the presence of high levels of trimetrexate, it appears that the concentration of unbound drug within cells is a significant determinant of the extent of this competitive binding interaction. From these considerations, the high levels of methotrexate polyglutamates that accumulate in sensitive tumors relative to bone marrow and gastrointestinal cells would appear to represent an important factor for the selectivity of leucovorin rescue in vivo.
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PMID:Antifolate polyglutamylation and competitive drug displacement at dihydrofolate reductase as important elements in leucovorin rescue in L1210 cells. 241 28


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