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)

4'-(9-Acridinylamino)methanesulfon-m-anisidide (m-AMSA) is a DNA intercalating 9-aminoacridine with clinical activity in adult acute leukemia. m-AMSA has been shown to produce protein-linked DNA strand breaks in mammalian cells through an interaction with the nuclear enzyme DNA topoisomerase II. We have compared the effects of m-AMSA and several acridine analogues (9-aminoacridine; A, NSC 343499; B, SN 16507; C, NSC 140701; D, SN 13553) on DNA integrity and cell survival in L1210 leukemia in vitro. Cells (or isolated nuclei) were treated with drugs (0.1-50 microM) for 0.5-1.0 h and subsequently analyzed using the alkaline elution technique. All drugs, except Compound D, produced DNA-protein cross-links (DPC) in L1210 cells. At 1 microM, potency was in the order, C greater than m-AMSA greater than B greater than A much greater than 9-aminoacridine. In isolated nuclei, DPC and single-strand breaks were produced in essentially a 1:1 ratio, which is consistent with topoisomerase II-mediated protein-linked DNA breaks. Potency differences were less pronounced in nuclei than in cells. In isolated nuclei, Compound D produced extensive DPC not associated with single-strand breaks, which suggests a more complex activity for this compound. Colony formation assays demonstrated the cytotoxicity of most of these acridine analogues (C greater than B greater than A approximately equal to m-AMSA much greater than D = 9-aminoacridine). Correlation of DPC with cell kill gave similar curves for each compound. These results are evidence for a causal relationship between drug-induced topoisomerase II-mediated DNA breaks and cytotoxicity.
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PMID:Topoisomerase II-mediated DNA damage produced by 4'-(9-acridinylamino)methanesulfon-m-anisidide and related acridines in L1210 cells and isolated nuclei: relation to cytotoxicity. 282 87

We have undertaken a study of DNA topoisomerases in mitochondria from human acute leukemia cells. Two activities have been detected in these organelles. One of the enzymes is presumably a type II topoisomerase, i.e., in ATP-dependent reactions it can catenate closed circular plasmid DNA, and decatenate closed circular kinetoplast DNA. A second topoisomerase is presumably a type I enzyme since, it can relax positive as well as negative supercoils in an ATP-independent reaction, it is unable to catenate plasmid DNA or decatenate kinetoplast DNA, and it is inhibited, rather than stimulated, by ATP.
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PMID:The presence of two mitochondrial DNA topoisomerases in human acute leukemia cells. 299 88

Rearrangements of the MLL (Mixed Lineage Leukemia) gene in the human 11q23 cytogenetic locus have been detected in secondary (therapy-related) acute leukemias in patients who have received topoisomerase II inhibitors for prior, independent neoplasms. The topoisomerase II inhibitors implicated in MLL/11q23 secondary leukemias all inhibit the religation step of reaction catalyzed by topoisomerase II. This results in the stabilization of a 'cleavable complex' with double-strand DNA breaks at the point of topoisomerase II binding. This raises the possibility that the cleavable complex participates in the translocation process in MLL/11q23 secondary leukemias. Here we report that the MLL/11q23 breakpoints in 13/13 patients with secondary leukemia map to the same breakpoint cluster region (bcr) noted in de novo MLL/11q23 acute leukemias and the presence of in vivo topoisomerase II inhibitor-induced cleavage sites in MLL/11q23 bcr. We have also cloned and sequenced the breakpoint from a MLL/11q23 secondary acute leukemia. This analysis revealed sequences similar to the consensus sequence for vertebrate topoisomerase II binding and cleavage close to the 11q23 and 4q21 breakpoints. These results support a role for topoisomerase II in mechanism generating translocations in MLL/11q23 secondary acute leukemia.
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PMID:Molecular analysis of 13 cases of MLL/11q23 secondary acute leukemia and identification of topoisomerase II consensus-binding sequences near the chromosomal breakpoint of a secondary leukemia with the t(4;11). 764 17

We describe the occurrence of a variant Ph chromosome (v-Ph) in a therapy-related acute leukemia (s-AL), developed after 8-year treatment for a NHL with alkylating agents, anthracyclines and topoisomerase II inhibitors. The v-Ph originated from a complex t(2;9;22) translocation, expressed a p190bcr-abl fusion protein, and was associated to other specific changes, such as dup(3) (q21q26) and -7. The s-AL, apparently not preceded by a dysplastic phase, presented with signs of trilineage dysplasia with 10% micromegakaryocytes; it was classified as M5 according to FAB. The complex genetic changes observed in the present case may reflect distinct leukemogenic effects by different chemotherapeutic agents.
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PMID:Acute leukemia presenting a variant Ph chromosome with p190 expression, dup 3q and -7, developed after malignant lymphoma treated with alkylating agents and topoisomerase II inhibitors. 765 16

Cytogenetic analysis of tumor cells has revealed that recurring chromosome abnormalities are present in many tumors. In the leukemias, lymphomas, sarcomas, these abnormalities are frequently translocations or less often inversions which are closely associated with particular morphologic subtypes of these tumors. Rearrangements involving chromosome band 11q23 are common in acute leukemia, both lymphoblastic and myeloid (monoblastic), and are less common in lymphoma. Although several different genes have been cloned from 11q23 translocation breakpoints, the great majority involve the MLL (myeloid-lymphoid leukemia) gene. The MLL gene has several different names, ALL1, Htrx, HRX; the central part of the gene codes for multiple zinc fingers which show homology to the Drosophila trithorax gene. About 70% of infants with acute leukemia will have MLL rearrangements. MLL is involved in five common translocations as well as in 25 uncommon or rare translocations, insertions and deletions. The translocation breakpoints occur within an 8.3 kb region which can be detected with a 0.74 kb cDNA probe. Twenty-five percent of patients have a deletion 3' of the breakpoint which includes the zinc finger region. Patients who previously received drugs that inhibit topoisomerase II often develop acute leukemia with translocations involving 11q23. These translocations break MLL in the same 8.3 kb region. In the breakpoints cloned to date, the translocation leads to a fusion gene on the derivative 11 chromosome with a chimeric transcript, consisting of 5' MLL and the 3' segment of the other gene. The molecular dissection of these arrangements will provide insights into the biology of MLL and into the interaction of MLL with topoisomerase II inhibitors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chromosome translocations: good genes gone wrong. 767 46

We performed cytogenetic studies in a patient with treatment-related acute leukemia (t-AL) to identify the associated chromosomal changes. Metaphase analysis revealed a t(3;21)(q26;q22) translocation. Acute promyelocytic leukemia (APL) had been diagnosed 4 years earlier and the patient had received intensive induction chemotherapy and sequential post-induction therapy that included agents that targeted DNA-topoisomerase II (topo II). This case suggests an association between previous therapy with topo II inhibitors and development of t-AL associated with a balanced aberration involving the 3q26 and 21q22 bands.
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PMID:Translocation (3;21)(q26;q22) in treatment-related acute leukemia secondary to acute promyelocytic leukemia. 801 66

A case of therapy-related acute non-lymphocytic leukemia (t-ANLL) in a 70-year-old female patient is reported. An operation for lung cancer was performed in February 1991, and she was treated with etoposide (VP-16), a topoisomerase II inhibitor. Nineteen months after the start of chemotherapy, she complained of palpitations, and anemia and thrombocytopenia developed. The myelogram revealed 41.2% leukemic cells, and a diagnosis of t-ANLL induced by VP-16 was made. The karyotype of bone marrow cells showed 46, XX, t(7;11) (p13;p15), 16p+. She obtained complete remission (CR) by treatment with low dose cytosine arabinoside (Ara-C) and cytarabine ocfosfate (SPAC). Karyotype with t-ANLL induced by alkylate agents frequently shows unbalanced abnormalities. The difference of cytogenetic findings suggest the difference of mechanisms. Detailed chromosomal analysis make clear the oncogenesis of t-ANLL. It is reported that the prognosis of patients with t-ANLL treated by conventional chemotherapy is poor. Considering that elderly cases of acute leukemia have a lower probability of achieving CR than non-elderly cases, because of complications and side effects of chemotherapy such as bone marrow suppression, treatment with low dose Ara-C and SPAC is thought to be indicated in elderly patients with t-ANLL.
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PMID:[Therapy-related acute non-lymphocytic leukemia (M2) with 7;11 chromosome translocation induced into complete remission by low dose cytosine arabinoside and cytarabine ocfosfate therapy]. 807 12

Rearrangements involving chromosome band 11q23 are very common in acute leukemia, both lymphoblastic and myeloid (monoblastic), and are less common in lymphoma. Although several different genes have been cloned from 11q23 translocation breakpoints, the great majority involve the MLL (myeloid-lymphoid leukemia) gene. The MLL gene has several different names, ALL1, Htrx, HRX; the central part of the gene codes for multiple zinc fingers which show strong homology to the Drosophila trithorax gene. MLL is involved in four common translocations as well as in 25 uncommon or rare translocations, insertions and deletions. The translocation breakpoints occur within an 8.3kb region which can be detected with a 0.7 kb cDNA probe. Twenty-five percent of patients have a deletion 3' of the breakpoint which includes the zinc finger region. Patients who previously received drugs that inhibit topoisomerase II often develop acute leukemia with translocations involving 11q23. These translocations break MLL in the same 8.3kb region. In the four breakpoints cloned to date, the translocation has led to a fusion gene on the derivative 11 chromosome with a chimeric transcript, consisting of 5' MLL and the 3' segment of the other gene. Although transcripts were also cloned from the other derivative chromosome, all the evidence indicates that the critical fusion gene is on the derivative 11 chromosome. The molecular dissection of these rearrangements will provide insights into the biology of MLL and into the interaction of MLL with topoisomerase II inhibitors. In addition, this research has provided DNA probes that will be important for diagnosis and for monitoring patients during the course of their disease.
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PMID:1993 Robert R. deVilliers Lecture. Chromosome translocations: dangerous liaisons. 815 72

Antimetabolites and topoisomerase (topo) II-reactive drugs are frequently combined in the therapy of acute leukemia. The two types of agents are thought to be synergistic in their actions against malignant blasts but the mechanism for this synergism is incompletely described. This study sought to determine whether the combination of two rather than one anti-metabolite with the topo II-reactive intercalator mitoxantrone would be greater than the effect of the single antimetabolite ara-C on mitoxantrone's cytotoxic actions. We also aimed to determine a mechanism for synergism should it occur. The model system used was K562 human leukemia cells. The second anti-metabolite selected was F-ara-A, the active form of fludarabine. The resultant combination (F-ara-A, ara-C, and a topo II reactive drug) is one currently being tested against acute myelogenous leukemia in clinical trials. F-ara-A itself had little effect on the cytotoxicity or the topo II-mediated DNA cleaving actions of mitoxantrone, while ara-C potentiated these actions as it does those of other topo II-reactive drugs. Surprisingly F-ara-A enhanced the actions of ara-C on mitoxantrone-associated cytotoxicity by at least an order of magnitude. The effect of the addition of F-ara-A to ara-C on mitoxantrone-induced DNA cleavage was considerably smaller, but present. Antimetabolite treatment did not increase the amount of topo II within cells measured directly by immunoblotting or indirectly by quantifying the maximum number of topo II-DNA complexes stabilized by mitoxantrone. Rather, the anti-metabolites altered the distribution of the cells in the cell cycle. Antimetabolite treatment caused a large increase in S-phase cells, a phase in which cells are more sensitive to topo II-reactive drugs than the associated topo II-mediated DNA cleavage would predict. Therefore, it is likely that this shift in the distribution of the cells within the cell cycle accounts for both the enhanced cytotoxicity of mitoxantrone in antimetabolite pretreated cells and the discrepancy between the magnitude of antimetabolite action on topo II-mediated DNA cleavage.
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PMID:The effect of 9-beta-D-arabinofuranosyl-2-fluoroadenine and 1-beta-D-arabinofuranosylcytosine on the cell cycle phase distribution, topoisomerase II level, mitoxantrone cytotoxicity, and DNA strand break production in K562 human leukemia cells. 864 1

The aim of this study was to evaluate the activity of topotecan in patients with myelodysplastic syndrome (MDS) and chronic myelomonocytic leukemia (CMML). Forty-seven patients with a diagnosis of MDS (n = 22) or CMML (n = 25) were treated. The median age was 66 years. Chromosomal abnormalities were present in 70% and thrombocytopenia less than 50 x 10(3)/microL in 51%. Evaluation of outcome and of differences among subgroups was performed according to standard methods; the criteria for response were those used for acute leukemia. Topotecan was administered as 2 mg/ m2 by continuous infusion over 24 hours daily for 5 days (10 mg/m2 per course) every 3 to 4 weeks until remission, then once every month for a maximum of 12 courses. Thirteen patients (28%) achieved a complete response (CR) and six (13%) had hematologic improvement. A CR was achieved in six of 22 patients with MDS (27%) and in seven of 25 with CMML (28%). All eight patients who presented with cytogenetic abnormalities (five chromosome 5 or 7 abnormalities) who achieved CR were cytogenetically normal in CR. Characteristics for which there was evidence of association with a higher response rate were lack of prior chemotherapy, less than 10% marrow monocytes, and absence of RAS oncogene mutations. In contrast, CR rates were similar in patients with or without abnormal karyotypes. Mucositis occurred in 64% of patients (severe in 19%) and diarrhea in 32% (severe in 13%). Febrile episodes occurred in 85% of patients and documented infections in 47%. With a median follow-up duration of 8 months, the 12-month survival rate was 38%, median survival time 10.5 months, and median remission duration 7.5 months. We conclude that topotecan has significant activity in MDS and CMML, with acceptable side effects. Future studies will investigate topotecan combined with topoisomerase II reactive agents, cytarabine, or hypomethylating agents (azacytidine and decitabine).
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PMID:Topotecan, a topoisomerase I inhibitor, is active in the treatment of myelodysplastic syndrome and chronic myelomonocytic leukemia. 883 38

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