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)

N-[(Trimethylamine-boryl-carbonyl]-L-tryptophan methyl ester and N[(trimethylamine-boryl)-carbonyl]-L-histidine methyl ester were obtained by synthesis using triphenyl-phosphine/carbon tetrachloride or dicyclohexyl-carbodiimide as coupling agents, respectively. Both agents reduced L1210 lymphoid leukemia DNA, RNA, and protein syntheses with the largest reductions occurring in DNA synthesis. Reductions in DNA synthesis appear to be mediated by inhibition of key enzyme activities (i.e., DNA polymerase a, IMP dehydrogenase, and PRPP amido transferase). These agents had little effect on in vitro L1210 DNA topoisomerase II activity at 100 microM but were able to cause synergistic increases in protein-linked DNA breaks when combined with etoposide (VP16). It was shown that these agents significantly reduced protein kinase C mediated phosphorylation of human topoisomerase II in vitro. Thus, inhibition of topoisomerase II phosphorylation may be a mechanism by which these agents and VP-16 are synergistic in causing protein-linked DNA breaks.
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PMID:Synthesis and antitumor activity of boronated dipeptides containing aromatic amino acids. 941 63

The treatment of cancer with alkylating drugs or topoisomerase II inhibitors can be responsible for the development of myelodysplastic syndromes and acute myelogenous leukemia. Alkylating agents such as melphalan and cisplatinum mainly produce damages at chromosomes 5 and 7 whereas topoisomerase II inhibitors-induced lesions essentially affect chromosomes 11 and 21. Rearrangements of the MLL gene at band 11q23 are frequently observed in human de novo myeloid and lymphoid leukemia as well as in leukemia or myelodysplasia secondary to therapy with drugs targetting topoisomerase II such as the epipodophyllotoxins. A relationship between the treatment with etoposide on teniposide and the development of translocations of the MLL gene has been clearly evidenced. The potential molecular basis of the chromosomal rearrangements implicating topoisomerase II and its inhibitors are discussed. The chemical structure of the inhibitors, their mechanism of action and the genes targetted by these drugs are presented. DNA cleavages induced directly by topoisomerase II inhibitors or by the drug induced apoptotic cellular response are responsible for nonrandom chromosomal aberrations and contribute to leukemogenesis.
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PMID:[Chromosome translocations and leukemias induced by inhibitors of topoisomerase II anticarcinogenic drugs]. 975 16

The ATP assay is a short term in vitro chemosensitivity assay where the amount of viable cells are determined by their content of ATP. The aim of the study was to compare the in vitro results of six cytostatic drugs to the clinical outcome in 83 acute non-lymphocytic leukemia (ANLL) patients. The secondary ANLL at diagnosis showed an in vitro resistance to daunorubicin that was significantly higher compared to de novo ANLL at diagnosis (P<0.003). De novo ANLL at diagnosis that achieved complete remission (CR) were significantly more sensitive to daunorubicin compared to those who didn't achieve CR (P<0.05). There was an vitro correlation between topoisomerase II active drugs but not between these drugs and ara-C. In vitro ara-C sensitivity (< or = the median of the de novo ANLL at diagnosis) was correlated to poor overall survival (P = 0.02). In vitro sensitivity to daunorubicin and mitoxantrone was associated with prolonged disease free survival (P = 0.03 and P = 0.04). We conclude that despite significant correlation to clinical parameters for daunorubicin and mitoxantrone the predictive value of the ATP assay in this material was insufficient for directing therapy.
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PMID:In vitro chemosensitivity testing in acute non lymphocytic leukemia using the bioluminescence ATP assay. 1078 67

The MLL gene at 11q23 is frequently disrupted by chromosomal translocations in de novo acute myeloid leukemia (AML) and acute lymphoid leukemia (ALL), and in secondary leukemia induced by treatment with inhibitors of topoisomerase II, including the epipodophylotoxins. The CBFA2 gene at 21q22 is also frequently disrupted in de novo ALL and AML and less commonly in secondary AML. Rearrangements of MLL and CBFA2 have been described in de novo and secondary myelodysplastic syndrome (MDS). There have been no previous descriptions of coexisting abnormalities of MLL and CBFA2 in cases of MDS or acute leukemia. We describe a patient who developed secondary MDS after chemotherapy for hyperdiploid ALL. At the time of conversion to MDS, the patient had 46 chromosomes, with an 11q23/MLL translocation involving a new partner breakpoint at 2p23 and a 21q22/CBFA2 translocation involving a new partner breakpoint at 6p22. This report is the first to describe new partner breakpoints at 2p23 and 6p22 for MLL and CBFA2 genes, respectively, and concurrent rearrangements of these genes in a patient with secondary MDS.
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PMID:Concurrent translocations of MLL and CBFA2 (AML1) genes with new partner breakpoints in a child with secondary myelodysplastic syndrome after treatment of acute lymphoblastic leukemia. 1082 8

Acute leukemia is the most frequent therapy-related malignancy. Together with the increasing use of chemo- and radiotherapy, individual predisposing factors play a key role. Most of secondary leukemias can be divided in two well-defined groups: those secondary to the use of alkylating agents and those associated to topoisomerase inhibitors. Leukemias induced by alkylating agents usually follow a long period of latency from the primary tumour and present as myelodysplasia with unbalanced chromosomal aberrations. These frequently include deletions of chromosome 13 and loss of the entire or of part of chomosomes 5 or 7. The loss of the coding regions for tumor suppressor genes from hematopoietic progenitor cells is a particularly unfavourable event, since the remaining allele becomes susceptible to inactivating mutations leading to the leukemic transformation. The tumorigenic action of topoisomerase inhibitors is on the other hand due to the formation of multiple DNA strand breaks, resolved by chromosomal translocations. Among these, chromosome 11, band q23, where the myeloid-lymphoid leukemia (MLL) gene is located, is often involved. Frequent partners are chromosomes 9, 19 and 4 in the t(9;11), t(19;11) and t(4;11) translocations. Younger age, a mean period of latency of 2 years and monocytic subtypes are characteristic features of this type of leukemia. Among patients at risk for secondary leukemia, those with Hodgkin's disease are the most extensively studied, with the major impact of alkylating agents included in the chemotherapy schedule. The same is true for non-Hodgkin's lymphoma, while in multiple myeloma and acute lymphoblastic leukemia determinants are the dose of melphalan and of epypodophyllotoxin, respectively. Patients with breast, ovarian and testicular neoplasms are also at risk, in particular if trated with the association of alkylating agents and topoisomerase II inhibitors. According to the EBMT registry, in patients with lymphoma treated with high-dose therapy and autologous stem cell transplantation the cumulative risk of inducing leukemia at 5 years is 2.6%. Among treatment options, supportive therapy is indicated in older patients, while allogeneic stem cell transplantation, related or matched-unrelated, is feasible in younger patients. These data indicate the need for the identification of predisposing factors for secondary leukemia. In particular, frequent follow-up of patients at high-risk should be performed and any peripheral blood cytopenia should be considered suspicious. Whenever possible, the exclusion of drugs known to be leukemogenic from the treatment schedules should be considered, especially in young patients.
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PMID:Therapy related leukemias: susceptibility, prevention and treatment. 1137 39

We report a case of acute myelogenous leukemia (AML) with MLL (myeloid-lymphoid leukemia or mixed-lineage leukemia) gene rearrangement after exposure to tegafur/uracil. Cytogenetic and clinical findings in this patient: t(11;17) (q23;q25), AML-M4 morphology, development of AML within a short latent period after first exposure to tegafur/uracil, and good response to remission induction chemotherapy but short remission duration, have been considered typical features of therapy-related acute myelogenous leukemia (t-AML) after exposure to topoisomerase II-targeting agents. This case report suggests that t-AML may develop after exposure to tegafur/uracil and that MLL gene rearrangement may not necessarily be specific to t-AML after exposure to topoisomerase II-targeting agents.
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PMID:MLL gene rearrangement in acute myelogenous leukemia after exposure to tegafur/uracil. 1193 65

Targeted therapy with conjugated and unconjugated monoclonal antibodies for non-Hodgkin's lymphoma has revolutionized the approach to this disease. The efficacy and low toxicity of these agents have allowed introduction of this strategy in the early stages of therapy. Longer follow-up is needed before validating the safety of these agents. Since monoclonal antibodies are being given as front-line therapy, it is important to identify all potential adverse events. We report a case of secondary acute myelogenous leukemia (AML) with 11q23 cytogenetic abnormality and mixed lymphoid leukemia (MLL) gene expression in a patient treated with Y90 labeled anti-CD20 antibody (Zevalin). The patient was not exposed to topoisomerase II inhibitors. Our observations suggest a relationship between 11q23 leukemia and radioimmunotherapy (RAIT) and further studies are needed.
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PMID:Secondary acute myelogenous leukemia with MLL gene rearrangement following radioimmunotherapy (RAIT) for non-Hodgkin's lymphoma. 1253 41

The t(9;22) BCR/ABL fusion is associated with over 90% of chronic myelogenous and 25% of acute lymphocytic leukemia. Chromosome 11q23 translocations in acute myeloid and lymphoid leukemia cells demonstrate myeloid lymphoid leukemia (MLL) fusions with over 40 gene partners, like AF9 and AF4 on chromosomes 9 and 4, respectively. Therapy-related leukemia is associated with the above gene rearrangements following the treatment with topoisomerase II (topo II) inhibitors. BCR, ABL, MLL, AF9 and AF4 have defined patient breakpoint cluster regions. Chromatin structural elements including topo II and DNase I cleavage sites and scaffold attachment sites have previously been shown to closely associate with the MLL and AF9 breakpoint cluster regions, implicating these elements in non-homologous recombination (NHR). In this report, using cell lines and primary cells, chromatin structural elements were analyzed in BCR, ABL and AF4 and, for comparison, in MLL2, which is a homolog to MLL, but not associated with chromosome translocations. Topo II and DNase I cleavage sites associated with all breakpoint cluster regions, whereas SARs associated with ABL and AF4, but not with BCR. No close breakpoint clustering with the topo II/DNase I sites were observed; however, a statistically significant 5' or 3' distribution of patient breakpoints to the topo II DNase I sites was found, implicating DNA repair and exonucleases. Although MLL2 was expressed in all cell lines tested, except for the presence of one DNAse I site in the promoter, no other structural elements were found in MLL2. A NHR model presented demonstrates the importance of chromatin structure in chromosome translocations involved with leukemia.
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PMID:Common chromatin structures at breakpoint cluster regions may lead to chromosomal translocations found in chronic and acute leukemias. 1657 68

Two cell lines which show different patterns of DNA fragmentation have been examined for variations of their nuclear morphology during apoptosis. FDCP-Mix, a pluripotent murine haemopoietic stem cell line which undergoes typical internucleosomal cleavage of DNA when induced to apoptosis either by drugs or withdrawal of growth factor (IL-3) was compared with the human lymphoid leukemia cell line MOLT-4, a cell line which undergoes apoptosis without production of a typical DNA 'ladder'. The nuclear morphology of FDCP-Mix cells was consistent after apoptotic induction by drug or by growth factor withdrawal. Apoptotic nuclear morphology for MOLT-4 and FDCP-Mix showed variations in the distribution, density and texture of the electron dense nuclear marginations. Despite these differences, clustering of nuclear pore complexes (NPCs) after treatment with the topoisomerase II inhibitor etoposide was a common phenomenon for both cell lines. Moreover, pore clustering for FDCP-Mix nuclei occurred independently from the way in which apoptosis was induced, either by growth factor withdrawal or etoposide treatment. In a novel approach, we visualised the clustering of NPCs three-dimensionally by field emission in-lens scanning electron microscopy (FEISEM).
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PMID:Nuclear pore clustering is a consistent feature of apoptosis in vitro. 1718 65

The heterocyclic carboxyborane amines were found to be potent cytotoxic agents in the murine L1210 lymphoid leukemia and human HeLa suspended carcinoma cells. These agents were observed to inhibit HeLa DNA topoisomerase II activity ~ 200 muM and L1210 topoisomerase II activity >/= 100 muM. These agents did not cause DNA protein linked breaks themselves, but upon incubation for 14-24 hr did enhance the ability of VP-16 to cause cleavable complexes. The heterocyclic amineboranes inhibited DNA synthesis and caused DNA strand scission. They were additive with VP-16 in affording these results as well as inhibiting colony growth of L1210 cells after co-incubation for 1 hr. The agents inhibited in vitro PKC phosphorylation of both L1210 lymphoid leukemia and human topoisomerase II enzyme.
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PMID:Cytotoxic action of carboxyborane heterocyclic amine adducts. 1847 92

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