Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Diploid human fibroblast strains were treated for 10 min with inhibitors of type I and type II DNA topoisomerases, and after removal of the inhibitors, the rate of initiation of DNA synthesis at replicon origins was determined. By alkaline elution chromatography, 4'-(9-acridinylamino)methanesulfon-m-anisidide (amsacrine), an inhibitor of DNA topoisomerase II, was shown to produce DNA strand breaks. These strand breaks are thought to reflect drug-induced stabilization of topoisomerase-DNA cleavable complexes. Removal of the drug led to a rapid resealing of the strand breaks by dissociation of the complexes. Velocity sedimentation analysis was used to quantify the effects of amsacrine treatment on DNA replication. It was demonstrated that transient exposure to low concentrations of amsacrine inhibited replicon initiation but did not substantially affect DNA chainelongation within operating replicons. Maximal inhibition of replicon initiation occurred 20 to 30 min after drug treatment, and the initiation rate recovered 30 to 90 min later. Ataxia telangiectasia cells displayed normal levels of amsacrine-induced DNA strand breaks during stabilization of cleavable complexes but failed to downregulate replicon initiation after exposure to the topoisomerase inhibitor. Thus, inhibition of replicon initiation in response to DNA damage appears to be an active process which requires a gene product which is defective or missing in ataxia telangiectasia cells. In normal human fibroblasts, the inhibition of DNA topoisomerase I by camptothecin produced reversible DNA strand breaks. Transient exposure to this drug also inhibited replicon initiation. These results suggest that the cellular response pathway which downregulates replicon initiation following genotoxic damage may respond to perturbations of chromatin structure which accompany stabilization of topoisomerase-DNA cleavable complexes.
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PMID:Inhibition of replicon initiation in human cells following stabilization of topoisomerase-DNA cleavable complexes. 164 93

A number of characteristics in the human genetic disorder ataxia-telangiectasia are compatible with an alteration to chromatin structure or the recognition of that structure by an enzyme or DNA binding protein. We describe here reduce activity of DNA topoisomerase type II in a number of Epstein Barr Virus-transformed ataxia-telangiectasia lymphoblastoid cell lines. Enzyme activity was reduced 10-fold or greater in 4 out of 5 cell lines compared to controls. In the remaining cell line approximately a 2-3 fold reduction was evident in partially purified extracts. DNA topoisomerase type I activity was found to be the same as controls in all the cell lines. Northern blot analysis revealed that the same level of DNA topoisomerase II mRNA was expressed in ataxia-telangiectasia and control cell lines. The size and amount of the enzyme did not differ appreciably from that observed in control cells. The reduced activity of DNA topoisomerase II in ataxia-telangiectasis cells might be explained by amino acid substitutions, small deletions in DNA or by a defect in post-translational modification in these cells.
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PMID:Defective DNA topoisomerase II in ataxia-telangiectasia cells. 196 59

Abnormal expression of the nuclear-associated enzyme DNA topoisomerase II (topoisomerase II) has been implicated in the in vitro phenotype of radiation hypersensitive ataxia-telangiectasia (A-T) cells and in modifying sensitivity of eukaryotic cells to topoisomerase II-inhibitor drugs [e.g., the DNA intercalator amsacrine (mAMSA)]. To study such relationships, various SV40- and Epstein-Barr Virus-transformed human cell lines derived from normal, A-T, or UV-sensitive xeroderma pigmentosum donors have been assayed for their sensitivity to mAMSA together with direct and indirect measurements of topoisomerase II expression. We report on the identification of an SV40-transformed A-T fibroblast cell line with abnormally high levels of topoisomerase II in nuclear protein extracts as determined by immunoblotting, measurement of kinetoplast DNA decatenation activity, and mAMSA-dependent DNA-protein cross-linking activity in a filter binding assay. Using a flow cytometric assay for the analysis of reactivity of nuclei with a polyclonal antitopoisomerase II antibody, overproduction was found to occur in all phases of the cell cycle. High levels of topoisomerase II were associated with hypersensitivity (5-10-fold) to mAMSA-induced cell cycle delay, cell kill, and DNA strand breakage (assayed under protein-denaturing conditions). Xeroderma pigmentosum (group A) cells demonstrated normal responses to mAMSA. The results provide evidence that cellular potential for the generation of topoisomerase II-dependent DNA damage is a major factor in governing the sensitivity to mAMSA. Furthermore, underexpression of topoisomerase II does not appear to be a primary factor in describing the in vitro A-T phenotype. The findings also relate to how changes in chromatin structure and function may either reflect or dictate the expression of topoisomerase II in human cells.
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PMID:Cellular consequences of overproduction of DNA topoisomerase II in an ataxia-telangiectasia cell line. 253 42

The excision repair of u.v. damage has been supposed to involve an initial action of DNA topoisomerase II, since some pre-incision step is sensitive to novobiocin, a topoisomerase II inhibitor. But novobiocin also affects mitochondrial structure and ATP metabolism, and this may account for its apparent inhibition of energy-dependent excision repair. We have investigated the effects of etoposide, another inhibitor of topoisomerase II, on u.v.-irradiated human cells: it is a more specific agent with no immediate side-effects on mitochondria. But etoposide is without effect on cellular excision repair, at the pre-incision stage or at the later stages of either DNA resynthesis or strand break ligation; nor does it potentiate cell killing after u.v. irradiation. The chromosome decondensation that accompanies incomplete excision repair in mitotic cells is likewise not greatly affected by etoposide. Therefore, if topoisomerase II is involved in excision repair or its regulation, it acts through a process that in whole cells is insensitive to etoposide. In ataxia telangiectasia cells, which are known to be hypersensitive to etoposide, the mitochondrial activities are not abnormally affected.
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PMID:Action of etoposide (VP-16-123) on human cells: no evidence for topoisomerase II involvement in excision repair of u.v.-induced DNA damage, nor for mitochondrial hypersensitivity in ataxia telangiectasia. 282 76

Considerable evidence supports a defect at the level of chromatin structure or recognition of that structure in cells from patients with the human genetic disorder ataxia-telangiectasia. Accordingly, we have investigated the activities of enzymes that alter the topology of DNA in Epstein Barr Virus-transformed lymphoblastoid cells from patients with this syndrome. Reduced activity of DNA topoisomerase II, determined by unknotting of P4 phage DNA, was observed in partially purified extracts from 5 ataxia-telangiectasia cell lines. The levels of enzyme activity was reduced substantially in 4 of these cell lines and to a lesser extent in the other cell line compared to controls. DNA topoisomerase I, assayed by relaxation of supercoiled DNA, was found to be present at comparable levels in both cell types. Reduced activity of topoisomerase II in ataxia-telangiectasia is compatible with the molecular, cellular and clinical changes described in this syndrome.
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PMID:Reduced DNA topoisomerase II activity in ataxia-telangiectasia cells. 283 4

Mammalian DNA topoisomerase II represents the cellular target of many antitumor drugs, such as epipodophyllotoxin VP-16 (etoposide). The mechanism by which VP-16 exerts its cytotoxic and antineoplastic actions has not yet been firmly established, although the unique correlation between sensitivity to ionizing radiation and to topoisomerase II inhibitors suggest the involvement of DNA double-strand breaks. In the present study we analyzed the chromosomal sensitivity of lymphoblastoid cell lines derived from ataxia telangiectasia (AT) patients to low concentrations of the drug. Our results indicate that AT derived cells are hypersensitive to the clastogenic activity of VP-16 either when the drug is present for the whole duration of the cell cycle or specifically in the G2 phase, confirming that the induction of DNA double strand breaks, to which AT cells seem typically sensitive, could have an important role in the biological activity of VP-16.
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PMID:Hypersensitivity of lymphoblastoid lines derived from ataxia telangiectasia patients to the induction of chromosomal aberrations by etoposide (VP-16). 769 18

DNA topoisomerase II is involved in DNA topologic changes through the formation of a cleavable complex. This is stabilized by the antitumor drug VP16, which results in DNA breakage, aberrant recombination, and cell death. In this work, we compare the chromosomal damage induced by VP16 with that induced by bleomycin (BLM) in lymphoblasts from patients affected by the chromosome breakage syndromes ataxia telangiectasia (AT), xeroderma pigmentosum (XP), and Bloom syndrome (BS), and by the progeroid syndromes Werner (WS) and Cockayne (CS). Patients affected by AT, XP, BS, and WS have a greatly enhanced risk of developing cancer. The results show that AF and WS cells are hypersensitive to VP16, as revealed in the higher proportion of metaphases showing exchange figures and more than two breaks. All lines except AT and one CS line showed normal sensitivity to BLM. Our data on the sensitivity to VP16 of all these mutant cells underline the fact that VP16 damage is amplified only in cells that have abnormal illegitimate recombination (i.e., AT and WS).
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PMID:Effects of topoisomerase II inhibition in lymphoblasts from patients with progeroid and "chromosome instability" syndromes. 862 55

Ataxia telangiectasia (AT) patients show variable degrees of immunodeficiency and a higher than normal predisposition to lymphoid malignancies. AT cells are characterized by spontaneous chromosome instability resulting in chromosome breakage and in non random chromosome rearrangements. Sequential cytogenetic studies on T-lymphocytes from an AT patient showed the progressive development of a clone bearing a tandem translocation t(14;14)(q11;q32). The abnormal clone had spontaneous chromosome rearrangements. Compared to non clonal cells, the abnormal clone displayed a higher frequency of spontaneous chromosome rearrangements. In only the clonal cells we observed two particular and predominant rearrangements: isodicentric chromosomes and telomeric associations which may derive from faulty recombination. Chromosome instability induced by the etoposide VP16, a DNA topoisomerase II inhibitor, was evaluated in terms of chromosome breakage and SCE frequency. T-lymphocytes from the AT patient showed hypersensitivity to VP16 significantly higher than normal T-lymphocytes. The chromosome instability induced by VP16 is significantly higher in clonal than in non clonal cells, whilst the chromosome instability induced by the radiomimetic drug bleomycin is not significantly different in the two AT lymphocyte subpopulations. The different spontaneous chromosome instability in clonal and non clonal cells together with their different behavior after treatment with only VP16, suggest that clonal cells bearing the tandem translocation could have increased faulty recombination. Given the presence of translocations t(14;14)(q11;q32) in T-prolymphocytic leukemias and T-cell tumors of non AT patients, our findings suggest that VP16 could be considered an antineoplastic treatment particularly indicated in these patients.
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PMID:VP16 hypersensitivity and increased faulty recombination in ataxia telangiectasia lymphocytes characterized by the tandem translocation t(14;14)(q11;q32). 862 39

The correlation between etoposide (VP-16) cytotoxicity and the induction of sister chromatid exchanges (SCEs) suggested that the promotion of DNA recombination events may be crucial for the activity of antitopoisomerase drugs. To further evaluate this hypothesis, we investigated the correlation between VP-16 induction of SCEs, chromosomal aberrations and cell cycle alterations in lymphoblastoid cell lines derived from patients affected by ataxia telangiectasia (AT), whose cells are known as hypersensitive to the cytotoxic and clastogenic activity of DNA topoisomerase II inhibitors. Our present study has shown that AT homozygous and heterozygous cell lines exposed to low VP-16 concentrations, although hypersensitive to the induction of chromosomal aberrations, exhibit an induction of SCEs comparable to that found in normal cell lines. Moreover, while the clastogenic effect of the drug was directly correlated to the reduction of the mitotic index, the enhancement of SCE frequencies, obtained over the same range of VP-16 concentrations, was not paralleled by a modification of proliferation index. Thus, these results suggest that etoposide retains in AT cells a strong clastogenic and cytostatic activity which is independent from DNA recombination events and which may be important for the induction of cell death by this kind of drug.
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PMID:Sister chromatid exchanges and DNA topoisomerase II inhibitors: effect of low concentrations of etoposide (VP-16) in ataxia telangiectasia lymphoblastoid cell lines. 950 59

In yeast cells, the intra-S-phase checkpoint slows down the rate of DNA replication in response to DNA damage. Here we showed that a similar checkpoint mechanism is present and activated by anti-tumour drugs in HL-60 and Epstein-Barr virus (EBV)-transformed human lymphoblastoid cells. Using bromodeoxyuridine (BrdU) pulse labelling combined with two-dimensional flow cytometric analysis, we clearly visualized the cell-cycle progression of the BrdU-positive population (cells originally belonging to the S phase) and detected even subtle changes in S-phase progression induced by mild drug treatment conditions free of apoptosis. The DNA topoisomerase II inhibitors, doxorubicin and etoposide (250 nmol/l and 400 nmol/l, respectively, for 8 h), retained the BrdU-positive HL-60 cells in the latter half of S and G2/M positions, and the pyrimidine analogue anti-metabolite, cytosine beta-D-arabinofuranose (Ara-C; 50 nmol/l), kept them in early-to-late S phase after 8 h of incubation. Because 10 micromol/l of caffeine added 2 h later attenuated the S-phase retardation by these drugs in HL-60 cells, slowing of the S-phase progression should be actively regulated. Furthermore, two ataxia telangiectasia (AT)-derived lymphoblastoid cell lines were impaired in the doxorubicin-induced S-phase retardation, which indicated that the process is at least partially dependent on ataxia telangiectasia mutated (ATM) gene product. The inhibitory mechanism on S-phase progression elicited by anti-tumour drugs in HL-60 and lymphoblastoid cells may therefore correspond to the intra-S-phase checkpoint of the yeast cells.
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PMID:Activation of an ataxia telangiectasia mutation-dependent intra-S-phase checkpoint by anti-tumour drugs in HL-60 and human lymphoblastoid cells. 1105 63


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