Further studies on a novel class of genetic variants of the L1210 cell with increased folate analogue transport inward. Transport properties of a new variant, evidence for increased levels of a specific transport protein, and its partial characterization following affinity labeling.
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Studies are reported on the characterization of a new isolate within a novel class of variants of the L1210 cell exhibiting markedly increased transport inward of folate analogues. This variant (L1210/R83), which was selected in the presence of the antifolate metoprine, exhibited a 40-fold increase in [3H]aminopterin influx compared to parental cells and a modest (4-5-fold) increase in [3H]aminopterin efflux. The increase in influx was associated with a comparable increase in influx Vmax for the one-carbon, reduced folate transport system and the same increase in the amount of specific binding of [3H]aminopterin on the cell surface. Values for influx Km for [3H]aminopterin and specificity for various folate structures were unchanged. The alteration in influx Vmax and more rapid efflux accounted for the different level of intracellular exchangeable level of drug at steady state in this variant compared with parental L1210 cells. Otherwise, membrane potential was unchanged. The N-hydroxysuccinimide ester of [3H]aminopterin was used to covalently label the specific binding protein for folate compounds in the plasma membrane of variant and parental L1210 cells. Incorporation of label into this protein was stable under a variety of conditions and accounted for 97 and 52% of total cellular labeling, respectively, for membrane derived from R83 and parental L1210 cells at a reagent concentration of 20 nM. Specific affinity labeling on the surface of parental and variant cells was decreased in the presence of aminopterin, methotrexate, or 5-formyltetrahydrofolate, but not in the presence of folic acid. Also, [3H]aminopterin influx in these cells was inhibited by the N-hydroxysuccinimide ester of aminopterin or methotrexate, but not the N-hydroxysuccinimide ester of folic acid. These findings, in addition to the increased affinity labeling of this variant, which corresponds to the increase in influx of [3H] aminopterin also seen, appears to identify the affinity labeled protein as a component of the "classical" one-carbon, reduced folate transport system in these cells. The affinity labeled protein from each cell type was solubilized in sodium dodecyl sulfate or extracted in detergent in the presence of proteinase inhibitors and was found to elute from Sephacryl S-300 and migrate during sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a single peak of Mr = 45,000-48,000. Recovery of labeled binding protein in these fractions from R83 variant cells was approximately 40 times greater than that from parental cells.(ABSTRACT TRUNCATED AT 400 WORDS) (+info)
Efficacies of antiherpesvirus nucleosides against two strains of herpes simplex virus type 1 in Vero and human embryo lung fibroblast cells.
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Antiviral activities of five nucleoside analogs against the VR-3 and WT-34 strains of herpes simplex virus type 1 (HSV-1) were investigated in Vero and human embryo lung fibroblast (HEL) cells. In HEL cells, the compounds showed antiviral activities against both strains of HSV-1, but in Vero cells, the antiviral activities of the compounds were reduced in proportion to their antiviral indexes (the 50% inhibitory dose [ID50] for cell growth divided by the 50% plaque reduction dose for virus). The ratio of the ID50 in Vero cells to the ID50 in HEL cells was larger in VR-3-infected cells than in WT-34-infected cells. The following results were obtained. (i) Thymidine kinase (TK; EC 2.7.1.21) activity in the VR-3- or WT-34-infected Vero cells was about half that in VR-3- or WT-34-infected HEL cells. Induction of viral TK was especially low in the VR-3-infected Vero cells. (ii) The ID50 of the plaque reduction assay in hypoxanthine, aminopterin, and thymidine medium revealed that the activity of cellular thymidylate synthetase (EC 2.1.1.45) was important in viral replication in VR-3-infected Vero cells. (iii) The VR-3-infected cells required larger thymidine and thymidine phosphate pools for viral replication than the WT-34-infected cells did, although uptake of 1-beta-D-arabinofuranosyl-E-5-(2-bromovinyl) uracil into infected cells was equal for both strains. (iv) In the VR-3-infected Vero cells, the quantity of 1-beta-D-arabinofuranosyl-E-5-(2-bromovinyl)uracil triphosphate was smaller than that in VR-3-infected HEL cells and WT-34-infected Vero and HEL cells. (+info)
Chromosomes of older humans are more prone to aminopterine-induced breakage.
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We have adopted a simplified version of the "cell hybrid cotransfer method" to test the hypothesis that human lymphocytes derived from elderly individuals have a higher chromosome instability. Peripheral blood lymphocytes from "old" male individuals and "young" controls were fused with a Chinese hamster cell line (CHO-YH21), yielding 10 HAT-resistant rodent-human clones from the old propositi and 22 from the young controls (HAT = hypoxanthine/aminopterin/thymidine). Both series of hybrid clones were analyzed with respect to the retention of the enzyme glucose-6-phosphate dehydrogenase and the surface antigen MIC2 identified by monoclonal antibody 12E7, two human X chromosome-linked markers located at opposite ends of the X chromosome. Cell hybrid clones with an X chromosome from a young control retained both markers in about 70% of the cells. In contrast, cell hybrid clones with an X chromosome from an old donor retained the MIC2 marker in only 30% of their cells. Slot-blot hybridization studies have established that the observed loss of the MIC2 marker is due to loss of the coding gene, not to suppression of its expression. Similar hybridization studies with molecular probes specific for other regions of the X chromosome suggest preferential chromosomal breakage sites. T lymphocytes from old donors were also found to have an LD50 for aminopterine significantly lower than the concentration of this drug in the HAT medium used to grow the hybrids, suggesting that the higher level of gene loss observed in the X chromosomes from old donors may be directly related to their increased sensitivity to the clastogenic effect of aminopterine. We speculate that the higher rate of chromosomal breakage and of marker loss observed along the "old-age" X chromosomes could be the result of "molecular scars" accumulated with aging at sites of constitutive chromosomal fragility. (+info)
Uracil-DNA glycosylase inhibitor of bacteriophage PBS2: cloning and effects of expression of the inhibitor gene in Escherichia coli.
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The uracil-DNA glycosylase inhibitor gene of bacteriophage PBS2 was cloned, and the effects of this inhibitor on Escherichia coli cells that contain uracil-DNA glycosylase activity were determined. A PBS2 genomic library was constructed by inserting EcoRI restriction fragments of PBS2 DNA into a plasmid pUC19 vector. The library was used to transform wild-type (ung+) E. coli, and the presence of the functional inhibitor gene was determined by screening for colonies that supported growth of M13mp19 phage containing uracil-DNA. A clone was identified that carried a 4.1-kilobase EcoRI DNA insert in the vector plasmid. Extracts of cells transformed with this recombinant plasmid lacked detectable uracil-DNA glycosylase activity and contained a protein that inhibited the activity of purified E. coli uracil-DNA glycosylase in vitro. The uracil-DNA glycosylase inhibitor expressed in these E. coli was partially purified and characterized as a heat-stable protein with a native molecular weight of about 18,000. Hence, we conclude that the PBS2 uracil-DNA glycosylase inhibitor gene was cloned and that the gene product has properties similar to those from PBS2-infected Bacillus subtilis cells. Inhibitor gene expression in E. coli resulted in (i) a weak mutator phenotype, (ii) a growth rate similar to that of E. coli containing pUC19 alone, (iii) a sensitivity to the antifolate drug aminopterin similar to that of cells lacking the inhibitor gene, and (iv) an increased resistance to the lethal effects of 5-fluoro-2'-deoxyuridine. These physiological properties are consistent with the phenotypes of other ung mutants. (+info)
Genetic studies of acridine-induced mutants in Streptococcus pneumoniae.
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The mutagenic properties of acridines on pneumococcus are described. All seven acridines tested were mutagenic at the amiA locus conferring a resistance to 10(-5) M aminopterin. The effects of quinacrine were more specifically investigated. It was observed that: mutants can be obtained only by treatment of exponentially growing cells; a sharp maximum mutagenic effect occurs at a concentration slightly lower than the bacteriostatic value; and the amount of quinacrine required to yield the maximum mutagenic effect decreases with the pH of the medium. Moreover, the number of mutants detected after quinacrine treatment varies from locus to locus. The majority of quinacrine-induced mutants are readily reverted by quinacrine, but not by nitrosoguanidine treatment. This suggests that in pneumococcus quinacrine induces mainly frameshift mutations. A further study of the revertants obtained by quinacrine treatment of quinacrine-induced mutants strengths this interpretation: most of the revertants result from a mutation at the same site; some partial revertants exhibiting an intermediate resistance to aminopterin were found to contain two very closely linked mutated sites, each mutation conferring the maximum level of resistance to aminopterin. Thus, the majority of quinacrine-induced mutants at the amiA locus of pneumococcus consists of frameshift mutations. Nearly all of the isolated mutants induced by quinacrine as well as other acridines belong to the low efficiency class of transformation. It was concluded that the mismatch resulting from the pairing between the wild type and the frameshift-containing sequence is recognized by the excision-repair system involved in the discrimination function in a way similar to that in which it recognizes mismatched base pairs between a transition mutation and the wild-type sequence. (+info)
Characterization of a varicella-zoster virus variant with altered thymidine kinase activity.
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A varicella-zoster virus (VZV) strain resistant to 5-iodo-2'-deoxyuridine (IdUrd) and 5-bromo-2'-deoxyuridine (BrdUrd) but sensitive to (E)-5-(2-bromovinyl)-2'-deoxyuridine (BVdUrd) and (E)-5-(2-iodovinyl)-2'-deoxyuridine (IVdUrd) was isolated. The 2'-deoxythymidine (dThd) kinase of this mutant (Ito) strain was characterized; it was much less efficient in phosphorylating dThd, 2'-deoxycytidine, and BrdUrd than were the dThd kinases from wild-type (CaQu, Kobayashi) VZV strains. The Ito dThd kinase had a markedly decreased affinity for dThd, 2'-deoxycytidine, and BrdUrd but only a slightly decreased affinity for IVdUrd than had the wild-type VZV dThd kinase. BrdUrd was incorporated to a much lesser extent in VZV (Ito strain)-infected cells than wild-type VZV-infected cells, but IVdUrd was incorporated in Ito VZV-infected cells as efficiently as in wild-type VZV-infected cells. While resistant to IdUrd and BrdUrd, the Ito strain was susceptible to inhibitors of de novo thymidylate biosynthesis such as aminopterin. (+info)
In vitro fertilization and development of ova obtained from female mice treated with aminopterin and mitomycin C.
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We examined the effects of mitomycin C and aminopterin on ovulation in vivo and, fertilization, subsequent cleavage and implantation in slc-ICR female mice using methods of fertilization and culture in vitro. Chemicals were injected into mice at the MI (meiosis I) stage or 3 hours before the MI stage in order to examine their toxicity. Mitomycin C did not affect ovulation, but decreased the rate of fertilization. A high dose of mitomycin C (4 mg/kg) inhibited fertilization and the development of ova to the 2-cell stage. Aminopterin affected neither ovulation nor fertilization. At either the MII (meiosis II) stage or 3 hours before the MII stage, high doses (4 and 2 mg/kg) of mitomycin C arrested cleavage and implantation. The cleavage was blocked frequently between the 3-4 cell stage and the 5-8 cell stage. Aminopterin affected neither cleavage nor implantation. (+info)
Structural design, biochemical properties, and evidence for improved therapeutic activity of 5-alkyl derivatives of 5-deazaaminopterin and 5-deazamethotrexate compared to methotrexate in murine tumor models.
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Studies are described examining a new class of 4-aminofolate analogues modified by an N to C conversion and alkyl substitution at the N-5 position of aminopterin and methotrexate. All of these analogues were equivalent to aminopterin and methotrexate as inhibitors of tumor cell dihydrofolate reductase (Ki = 3.49-5.16 pM). N to C conversion at the N-5 position of aminopterin reduced its influx (inferred from the change in Ki) 3-fold, but the same modification increased influx of methotrexate 2-3-fold in Sarcoma 180 cells. Alkylation (methyl or ethyl) of this position on 5-deazaaminopterin increased influx 3-fold, while a similar alteration of 5-deazamethotrexate increased influx 4-5-fold. Influx of the methotrexate analogues was increased a total of 14-fold as a result of these modifications. Similar differences among these analogues were observed for inhibition of Sarcoma 180 cell growth in culture. Inhibitory potency was in the ascending order methotrexate less than 5-deazamethotrexate less than 5-deazaaminopterin less than aminopterin less than 5-alkyl (methyl or ethyl) analogues of 5-deazaaminopterin and 5-deazamethotrexate (the ethyl analogues were 2-fold more inhibitory than the methyl analogues). All of the analogues examined were equivalent in regard to efflux from Sarcoma 180 cells. Differences in transport alone did not account for all of the increased inhibitory potency (up to 33-fold) of the 5-alkyl-5-deaza analogues compared to the parent compounds. The extent of polyglutamylation of 5-deazaaminopterin and 5-deazamethotrexate and their 5-alkyl derivatives in Sarcoma 180 cells was substantially less compared to aminopterin and equivalent to methotrexate. Transport inward of 5-deazaaminopterin in isolated crypt cell epithelium from mouse small intestine was 2-fold lower than aminopterin (influx Km = 14.2 +/- 2 microM), while influx of 5-deazamethotrexate was 2-fold greater than methotrexate (influx Km = 98.6 +/- 23). However, transport inward of all of the 5-alkyl derivatives of these 5-deaza analogues was intermediate [influx Km = 44.4 +/- 11 (SEM) to 49.8 +/- 12 microM] between values for aminopterin and methotrexate. These differences accounted, to some extent, for the reduced toxicity of the 5-alkyl-5-deazaaminopterin analogues compared to aminopterin and the increased toxicity of 5-methyl-5-deazamethotrexate compared to methotrexate. All of the 5-alkyl derivatives of aminopterin and methotrexate were more active in vivo than methotrexate against four murine tumor models.(ABSTRACT TRUNCATED AT 400 WORDS) (+info)