EC:5.99.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.2 (topoisomerase)
9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Evidence from several in vitro systems indicates that cellular responses to DNA topoisomerase II-reactive compounds (i.e., the epipodophyllotoxins and intercalating agents) may be affected by the relative rate of proliferation. Using a human head and neck squamous carcinoma cell line 183A, we have investigated the effect of beta-all-trans-retinoic acid (RA), a substance with known antiproliferative effects, on the DNA cleavage and cytotoxic activities of etoposide and 4'-(acridinylamino)methanesulfon-m-anisidide which interact with topoisomerase II. The effect of RA treatment on the activity of X-radiation and bleomycin, both of which produce free radical mediated effects, was also examined. RA treatment (10 to 20 microM for 72 h) does not significantly influence DNA cleavage induced by X-radiation or bleomycin but decreases DNA cleavage and cytotoxicity mediated by etoposide and 4'-(acridinylamino)methanesulfon-m-anisidide. Further, this effect can be demonstrated at a dose of RA that is minimally growth inhibitory. The inhibitory effect of RA appears to be localized to the nucleus given that similar effects on drug-mediated DNA cleavage can be demonstrated in nuclei isolated from RA-treated cells. However, both drug-stimulated DNA cleavage activity and topoisomerase II catalytic activity are approximately equal in crude nuclear extracts of untreated and RA-treated cells. These data suggest that the resistance to topoisomerase II-reactive drugs induced by RA treatment of 183A cells is not mediated through a direct effect on the enzyme, but, instead, is related to other changes in the nuclear milieu occurring in the initial stages of quiescence such as altered chromatin conformation.
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PMID:Effect of retinoic acid on DNA cleavage and cytotoxicity of topoisomerase II-reactive drugs in a human head and neck squamous carcinoma cell line. 253 45

Treatment of HL-60 with phorbol myristate acetate (PMA) for 30 min, or all-trans retinoic acid (RA) for 60 min, results in hyperphosphorylation (3-5x) of topoisomerase II (p170, topo II) in vivo. RA and PMA activate a coprecipitating kinase, respectively inducing 1.6 and 2.7-fold increases in phosphorylation of topo II in immunoprecipitates. The activity of the co-precipitating kinase is inhibited by heparin and unlabelled GTP suggesting that casein kinase II (CKII) is, at least in part, responsible for the topo II hyperphosphorylation in response to differentiation signals. Although following dephosphorylation of the enzyme with alkaline phosphatase there was virtual abrogation of activity, the differentiation associated hyperphosphorylation had little impact on the decatenation activity of topo II in nuclear extracts. There were, however detectable changes in topo II function in vivo which affected the formation of the etoposide stabilised cleavable complex, but only after PMA treatment. PMA resulted in a rapid reduction in etoposide induced cleavage, 30 min treatment with PMA reducing cleavage by 20%. However, treatment with RA for 1 or 2 h when hyperphosphorylation was maximal did not affect cleavage. Immunoband depletion assays suggested that differentiation associated changes in chromatin structure rather than alterations in the enzyme per se are responsible for the reduction in cleavable complex formation following PMA treatment. Etoposide cytotoxicity was significantly reduced following just 30 min PMA treatment, but not reduced and even possibly enhanced by retinoic acid treatment. These findings are relevant not only to the dissection of the role of topo II in differentiation but also to its exploitation as a therapeutic target.
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PMID:Retinoic acid and phorbol ester induced hyperphosphorylation of topoisomerase II-alpha is an early event in HL-60 human leukaemia cell differentiation: effect on topoisomerase activity and etoposide sensitivity. 764 27

We found that bufalin, an active principle of the Chinese medicine chan'su, has selective inhibitory effects on the growth of various human cancer cells. In order to examine whether the growth-inhibitory effect of bufalin on human cancer cells is associated with apoptosis, human leukemia cells were treated with bufalin. HL-60, ML1, and U937 leukemia cells treated with bufalin at 10(-8) M and above had condensed and fragmented nuclei. Flow cytometric analysis of these cells treated with bufalin showed fragmented DNA smaller than that of the G1 phase. DNA of HL-60 cells treated with bufalin showed a ladder pattern characteristic of apoptosis, as analyzed by agarose gel electrophoretic analysis. DNA synthesis and topoisomerase II activity of HL-60 cells were markedly inhibited as the concentration of bufalin was increased. The concentration needed for inducing apoptosis of HL-60 cells was 10(-8) M, which is comparable to that of camptothecin, but lower than those of other antitumor drugs such as cisplatin, VP16 and all-trans retinoic acid. Apoptosis was not observed when human mononuclear and polymorphonuclear cells were treated with 10(-6) M bufalin for 24 h. These results indicate the association of the growth-inhibitory effect of bufalin with the induction of apoptosis, at least in HL-60 cells, and suggest the usefulness of bufalin for differentiation-apoptosis-inducing therapy for cancer.
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PMID:Selective inhibitory effect of bufalin on growth of human tumor cells in vitro: association with the induction of apoptosis in leukemia HL-60 cells. 806 19

The effects of monocytic/macrophage and granulocytic differentiation induced by phorbol myristate acetate (TPA) and all-trans retinoic acid, respectively, were tested on the induction of apoptosis in human promyelocytic leukemia HL-60 cells treated with topoisomerase I and II inhibitors. Using a filter-binding assay, we observed a strong inhibition of DNA fragmentation induced by 3- and 24-hour continuous exposure to camptothecin, VP-16, VM-26, and m-AMSA in TPA-differentiated cells. The inhibition of the typical internucleosomal DNA fragmentation was confirmed by agarose gel electrophoresis. By contrast, drug-induced DNA fragmentation was not inhibited in retinoic acid-differentiated cells, and apoptosis occurred in these cells after 4 to 5 days in the absence of drug treatment. The TPA inhibitory effect was maximal after 24 hours of treatment and was correlated with differentiation, because phorbol dibutyrate ester was active, whereas 4-alpha-TPA, a nontumor promoter that does not induce differentiation, was not active. Using alkaline elution, we observed that TPA and retinoic acid differentiation were associated with changes in topoisomerase-mediated DNA breaks that were not correlated with their differential effects on drug-induced DNA fragmentation. Moreover, TPA also inhibited DNA fragmentation induced by vinblastine, cycloheximide, calphostin C, and x-rays. Using a cell-free system, we observed that DNA fragmentation was not inhibited in nuclei from TPA-differentiated cells. Rather, inhibition of apoptosis seemed to take place in the cytoplasm. We conclude that phenotypic changes associated with TPA-induced differentiation include inactivation of a cytoplasmic activity that can induce DNA fragmentation associated with apoptosis.
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PMID:Differential induction of apoptosis in undifferentiated and differentiated HL-60 cells by DNA topoisomerase I and II inhibitors. 838 72

We have previously shown that DNA-protein attachment sites form during the induction of hematopoietic cell differentiation. Affinity phase-partitioning studies of DNA/protein complexes demonstrated that the DNA involved is not randomly distributed throughout the genome. The object of this study was to use filter binding followed by two-dimensional (2D) polyacrylamide gel electrophoresis (using a neutral 6% gel in the first dimension and a denaturing gradient gel in the second dimension) to gain insight into changes in DNA-protein interactions during induced granulocytic and monocytic differentiation of HL60 cells. Nitrocellulose filter-binding enriched samples for protein-associated DNA sufficiently to change the pattern of DNA spots on 2D gels. The patterns of spots obtained was reasonably reproducible between experiments and highly reproducible within experiments. Gels obtained from cells induced to differentiate by either phorbol ester or all-trans retinoic acid (RA) showed identical patterns for the majority of spots but changes in a small proportion of spots with respect to uninduced controls. Both intensification and reduction/disappearance of spots was observed, demonstrating the existence of both invariant and variant DNA/protein attachment sites during the early stages of hematopoietic cell differentiation. Previous studies have implicated DNA topoisomerase II in chromatin structural changes that are necessary for induction of granulocytic differentiation. We therefore examined the filter-binding DNA preparation by 5'-exonuclease digestion (since topoisomerase II is known to bind covalently to the 5'termini on either side of its cleavage sites). The filter-associated DNA exhibited increased 5' exonuclease protection (with respect to filter flow-through DNA), and the degree of protection increased significantly with exposure to phorbol ester and less markedly with retinoic acid. However, since not all filter DNA was 5' protected, it remains unresolved whether the specific differentiation-associated DNA-protein interactions revealed here involve DNA topoisomerase II or some other protein.
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PMID:DNA-protein interaction sites in differentiating cells. I. Two-dimensional mapping of modulated sites. 859 77

We related cellular content of DNA topoisomerase (topo) IIalpha and IIbeta with the cell cycle position in proliferating, differentiated, and apoptotic HL-60 cells using two-dimensional flow cytometry. In logarithmically growing HL-60 cells, topo IIalpha increased especially in late S to G2/M phases, although the topo IIbeta level was almost constant throughout the cell cycle. Induction of differentiation by all-trans retinoic acid dramatically reduced the topo IIalpha but not the topo IIbeta level. A new G2/M population containing virtually no topo IIalpha appeared during differentiation and was supposed to be alive and noncycling. Two-dimensional flow cytometry of topo IIalpha or IIbeta staining and terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end-labeling assay showed that one topo IIbeta epitope situated at the C-terminal end decreased specifically in apoptotic HL-60 cells treated with Ara-C, etoposide, and vincristine. The amounts of a topo IIalpha epitope and another topo IIbeta epitope located at a more central portion were almost equal between apoptotic and nonapoptotic cells. Western blot analysis confirmed that topo IIbeta protein was completely degraded into smaller fragments and lost its C-terminal end during apoptosis. On the contrary, a large portion of topo IIalpha remained of its original size, although both topo IIalpha and IIbeta left from the nuclear fraction in apoptotic cells. Confocal laser microscopy showed nuclear localization of topo IIalpha and IIbeta in growing HL-60 cells. Although topo IIalpha and IIbeta were distributed throughout the cell during mitosis, only topo IIalpha was densely concentrated in the mitotic chromosomes. Both enzymes were dissociated from the genomic DNA even at an early phase of apoptosis and completely separated from the propidium iodide signal of DNA in the advanced stage. Chromatin condensation process in apoptosis is therefore completely topo II-independent and obviously differs from the mitotic one.
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PMID:Temporal and spatial distribution of DNA topoisomerase II alters during proliferation, differentiation, and apoptosis in HL-60 cells. 945 72

The expression of seven enzymes involved in the biosynthesis of DNA was measured in HL-60 promyelocytic leukemia cells treated with dimethylsulfoxide (DMSO) or all-trans retinoic acid (RA) to gain information on their role in the termination of proliferation in cells undergoing granulocytic differentiation. The steady-state levels of the mRNAs for topoisomerase I, topoisomerase II. DNA polymerase-alpha, thymidylate synthase, thymidine kinase and hypoxanthine-guanine phosphoribosyltransferase progressively declined from day 3 to day 7 of exposure to the polar solvent or the retinoid suggesting that the expression of these enzymes is coordinately regulated. In contrast, a pronounced difference between the two inducers of differentiation occurred in the expression of the mRNA of the M2 subunit of ribonucleotide reductase, with DMSO causing virtually complete inhibition of the expression of the M2 subunit of the enzyme from day 5 through day 7, with no change in the steady-state levels of the mRNA being produced by retinoic acid. Measurement of the enzymatic activities of two of these catalysts, thymidylate synthase and thymidine kinase, in cells exposed to the two inducers of maturation corroborated the findings at the level of the mRNAs, with corresponding decreases in the activity of these enzymes. The findings collectively demonstrate that the down-regulation of the expression of a relatively wide variety of enzymes involved in DNA replication occurs as late events in the granulocytic differentiation of HL-60 cells, ensuring that cellular replication cannot occur in terminally differentiated cells.
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PMID:Regulation of the expression of enzymes involved in the replication of DNA in chemically-induced granulocytic differentiation of HL-60 leukemia cells. 968 95

Regulation of topoisomerase II (TOPO II) isozymes alpha and beta is influenced by the growth and transformation state of cells. Using HL-60 cells induced to differentiate by all-trans retinoic acid (RA), we have investigated the expression and regulation of TOPO II isozymes as well as the levels of topoisomerase I (TOPO I). During RA-induced differentiation of human leukemia HL-60 cells, levels of TOPO I remained unchanged, whereas the levels and phosphorylation of TOPO IIalpha and TOPO IIbeta proteins were increased twofold to fourfold and fourfold to eightfold, respectively. The elevation of TOPO II (alpha and beta) protein levels and phosphorylation was apparent at 48 hours of treatment with RA and persisted through 96 hours. The increased level of TOPO IIbeta protein was also detected in differentiated cells subsequently cultured for 96 hours in RA-free medium. Pulse chase experiments in cells labeled with 35S-methionine showed that the rate of degradation of TOPO IIbeta protein in control cells was about twofold faster than that in the differentiated RA-treated cells. The level of decatenation activity of kDNA was comparable in nuclear extracts from control or RA-treated cells. Whereas etoposide (1 to 10 micromol/L) -induced DNA cleavage was not significantly different, apoptosis was significantly lower (P = .012) in RA-treated versus control cells after exposure to 10 micromol/L etoposide. Consistent with unaltered levels of TOPO I, camptothecin (CPT) -induced DNA cleavage was similar in control or RA-treated cells. However, apoptosis after exposure to 1 to 10 micromol/L CPT was significantly lower (P = .003 to P < .001) in RA-treated versus control cells. Results suggest that TOPO IIbeta protein levels are posttranscriptionally regulated and that degradation of TOPO IIbeta is decreased during RA-induced differentiation. Furthermore, whereas the total level of TOPO II (alpha + beta) is increased with RA, the level of TOPO II catalytic activity and etoposide-stabilized DNA cleavage activity remains unaltered. Thus, TOPO IIbeta may have a specific role in transcription of genes involved in differentiation with RA treatment.
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PMID:Altered expression and activity of topoisomerases during all-trans retinoic acid-induced differentiation of HL-60 cells. 976 71

The oral antitumor drugs against hematological malignancies are summarized. Sobuzoxane, a topoisomerase II inhibitor, is useful for the treatment of lymphoma, especially adult T cell leukemia/lymphoma. Sobuzoxane has an effect to protect against doxorubicin cardiotoxicity. Cytarabine ocfosfate, a derivative of cytosine arabinoside, is a useful agent against acute leukemia and MDS, especially RAEB, RAEB in T, CMMoL. The JALSG AML 92 study for APL with all-trans retinoic acid resulted in a 89% CR rate in 196 and 64% 4-year DFS in CR cases. Hydroxycarbamide is can control the WBC in CML. This agent is also effective for other myeloproliferative disorders, such as acute leukemia and MDS. Oral administration of 50 mg etoposide daily showed a good outcome in old patients with malignant lymphoma. For old patients and those with refractory hematological malignancies, oral administration of these agents can offer a new form of palliative therapy to allow them to remain at home while maintaining a high quality of life.
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PMID:[Oral antitumor drugs for hematological malignancies]. 1006 91

The first step of Ig heavy chain class switch recombination (CSR) is considered to be DNA double strand break (DSB) formation in the two switch (S) regions (S(mu) and downstream S(H)), although the underlying mechanism is unknown. Recently, it has been demonstrated that at least Spo11, a homolog of the novel type II topoisomerase (topo VI) that catalyzes DSB formation, is involved in the initiation of meiotic recombination of Saccaromyces cerevisiae. In the present study, we examined whether the mouse homolog of Spo11 is induced in normal mouse mu(+)B-cells by stimuli that cause an early step of CSR, germline C(H) transcription, and subsequent CSR. Two CSR systems were used: IgA CSR induced by all-trans retinoic acid, IL-5, and LPS, and IgG1 CSR induced by IL-4 and LPS. Germline transcript and mouse Spo11 expression were analyzed by RT-PCR. In both systems, first germline transcripts were clearly detected on day 2 and then Spo11 was detected on day 3, increasing thereafter with time. The time course of changes in Spo11 expression coincided with that of CSR. Spo11 seems to be induced by CSR-inducing stimuli, regardless of the direction of CSR. These results suggested that mouse Spo11 might participate in the initiation step of CSR.
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PMID:Mouse homolog of Saccharomyces cerevisiae spo11 is induced in normal mu(+)B-cells by stimuli that cause germline C(H) transcription and subsequent class switch recombination. 1087

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