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

Drugs that interfere with the action of P-glycoprotein (P-gp), the membrane efflux pump responsible for multidrug resistance (MDR), should be valuable in the treatment of patients with drug-resistant cancer. We have used one class of drug, the phenothiazines, to study the structural features required for optimum interference with the function of P-gp. The structure-activity relationships revealed three important components including the hydrophobicity of the tricyclic ring, the length of the alkyl bridge and the charge on the terminal amino group. Trans-flupenthixol is a lead compound that conforms to these structural requirements and demonstrates significant activity as a sensitizer of MDR cell lines to drugs affected by the MDR phenotype. Based on these data, we have proposed a model for the binding of modulators to P-gp and have speculated on the structure of the drug-binding domain. We have developed pre-clinical models of MDR that may help predict clinical activity of chemo-modulators. L1210/VMDRC.06 is a murine lymphocytic leukemia line transformed by a retroviral expression vector containing a full-length cDNA for the human mdr1 gene. K562/VBL1-3 are clones of human myeloid blast cells that were transformed with the same vector. Resistance in these lines is not complicated by changes in the cellular content of glutathione or alterations in topoisomerase II. The transformed L1210 line grows in mice as a slowly proliferating non-metastatic peritoneal implant. Both MDR lines are restored to sensitivity by cyclosporin A or trans-flupenthixol, and the K562 clones are induced to differentiate by hemin. These lines should provide simple, sensitive screens for new drugs for use against cancers expressing P-gp. We have proposed a model to explain how the pumping activity of P-gp is activated in response to toxic drugs. In this schema, basal activity of P-gp is modulated through phosphorylation/dephosphorylation reactions mediated by protein kinase C (PKC) and calcium sensitive phosphatases. In response to the activation of phospholipase C by toxic drugs and the local production of 1,2-diacylglycerol, PKC is translocated to the cell membrane where it phosphorylates P-gp. Following the extrusion of drug from the cell membrane, phospholipase C activity returns to baseline, diacylglycerol is metabolized, PKC returns to the cytosol and serine/threonine phosphatases dephosphorylate P-gp returning it to the basal state.
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PMID:Rational design and pre-clinical pharmacology of drugs for reversing multidrug resistance. 134 93

The potential role of tumor necrosis factor alpha (TNF alpha), interferon alpha (IFN alpha) and interferon gamma (IFN gamma) in the therapy of non-lymphoid leukemia was studied in ten non-lymphoid leukemia cell lines. All three cytokines tested inhibited the growth of the cell lines. However, a high degree of variability in susceptibility to cytotoxic/cytostatic effect of the cytokines was found among individual cell lines. Some cell lines were sensitive to the antiproliferative action of only one of the cytokines tested, but were resistant to the others. Combinations of two cytokines had additive or synergistic effects and inhibited cell growth to a greater extent than did the individual cytokines alone. In addition to the growth-inhibitory effect, the cytokines induced an apparent cell differentiation. The differentiation of the two most sensitive cell lines, EoL-1 and PL-21, was confirmed using the nitroblue tetrazolium reduction test, by changes in cell morphology, immunophenotype marker profiles and by changes in c-myb expression. Furthermore, we showed that even in the cell lines relatively resistant to the antiproliferative effect of cytokines, such as cell line KCL-22, the inhibition of cell growth could be markedly increased with the DNA-topoisomerase-II-targeted drug, doxorubicin. Our data thus suggest that TNF alpha, IFN alpha and IFN gamma together have a potential role in the immunotherapy of non-lymphoid leukemia in terms of their antiproliferative action, and their ability to induce differentiation and to modulate drug sensitivity.
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PMID:Effects of tumor necrosis factor alpha, interferon alpha and interferon gamma on non-lymphoid leukemia cell lines: growth inhibition, differentiation induction and drug sensitivity modulation. 151 60

Etoposide and teniposide are semi-synthetic glucoside derivatives of podophyllotoxin with a documented anti-tumour activity in various types of malignant diseases. It was an early observation that these epiphodophyllotoxins were efficacious in hematological malignancies such as lymphomas and leukemias. In this report the clinical evidence supporting the activity of etoposide and teniposide in acute lymphoblastic (ALL) and non-lymphoblastic leukemia (ANLL) is reviewed. Unlike podophyllotoxin, etoposide and teniposide do not appear to affect microtubular function nor arrest cells in mitosis. These epiphodophyllotoxins, like other DNA intercalating agents, have topoisomerase II as their target. Most studies with etoposide have been performed in ANLL and with teniposide in ALL. This choice seems to be rather arbitrary and is better explained by traditional reasons than actual study results. The data in acute leukemias are partly flawed by the absence of certain prospective comparative trials. However, the current information on etoposide clearly shows that this agent has substantial activity in ANLL and may well be incorporated into front-line regimens and the same is true for teniposide in the treatment of ALL. Nevertheless, based on available literature, there are no convincing data to the author's mind to support that one of these agents is superior to the other in the treatment of acute leukemias.
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PMID:Etoposide and teniposide in the treatment of acute leukemia. 218 20

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

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

Chromosome band 11q23 is frequently involved in acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) de novo, as well as in myelodysplastic syndromes (MDS) and lymphoma. Five percent to 15% of patients treated with chemotherapy for a primary neoplasm develop therapy-related AML (t-AML) that may show rearrangements, usually translocations involving band 11q23 or, less often, 21q22. These leukemias develop after a relatively short latent period and often follow the use of drugs that inhibit the activity of DNA-topoisomerase II (topo II). We previously identified a gene, MLL (myeloid-lymphoid leukemia or mixed-lineage leukemia), at 11q23 that is involved in the de novo leukemias. We have studied 17 patients with t-MDS/t-AML, 12 of whom had cytogenetically detectable 11q23 rearrangements. Ten of the 12 t-AML patients had received topo II inhibitors and 9 of these, all with balanced translocations of 11q23, had MLL rearrangements on Southern blot analysis. None of the patients who had not received topo II inhibitors showed an MLL rearrangement. Of the 5 patients lacking 11q23 rearrangements, some of whom had monoblastic features, none had an MLL rearrangement, although 4 had received topo II inhibitors. Our study indicates that the MLL gene rearrangements are similar both in AML that develops de novo and in t-AML. The association of exposure to topo II-reactive chemotherapy with 11q23 rearrangements involving the MLL gene in t-AML suggests that topo II may play a role in the aberrant recombination events that occur in this region both in AML de novo and in t-AML.
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PMID:Rearrangements of the MLL gene in therapy-related acute myeloid leukemia in patients previously treated with agents targeting DNA-topoisomerase II. 826 Jul 7

Etoposide induces DNA damage to cells by interacting with the nuclear enzyme topoisomerase II. In this investigation the human lymphoblastic leukemia cell line (CEM) was used to study induction of DNA-strand breaks and cellular drug uptake after treatment with etoposide at a concentration of 0.5-2 micrograms/ml. High performance liquid chromatography was used for determination of etoposide concentrations. The alkaline elution assay and the DNA unwinding technique were compared for quantifying strand breaks in DNA induced by etoposide. The concentrations required to increase the level of DNA damage significantly was as follows: the DNA unwinding technique, 0.20 microgram/ml; the alkaline elution assay with proteinase K, 0.45 microgram/ml; the alkaline elution assay without proteinase K, 0.60 microgram/ml. When the half-life was adjusted, considering the efflux time of etoposide from cells, it was found to be only a few minutes. The present data show that the DNA unwinding technique is to be preferred for the screening of DNA damage. This technique is easier and quicker to perform than the alkaline elution technique.
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PMID:DNA damage induced by etoposide; a comparison of two different methods for determination of strand breaks in DNA. 869 38

We report on 2 patients with acute leukemia who had an 11q23 chromosomal aberration as an additional change after treatment with etoposide and mitoxantrone, agents that affect topoisomerase II (Topo II). One patient with Philadelphia chromosome-positive (Ph+) acute lymphoblastic leukemia (L2) received chemotherapy, including 1,000 mg of etoposide and 75 mg of mitoxantrone. She relapsed 10 months later. Analysis at time of relapse showed a chromosomal aberration of del(11)(q23) as an additional cytogenetic change. The other patient was diagnosed with acute monoblastic leukemia (M5a) and received two autologous peripheral blood stem-cell transplantations. Her cumulative doses of etoposide and mitoxantrone were 6,000 mg and 42 mg, respectively. She also relapsed, and analysis at that time revealed del(11)(q23) as an additional chromosomal aberration. The mixed lineage leukemia/myeloid-lymphoid leukemia (MLL) gene was not rearranged in either case, making these cases distinct from previously described therapy-related leukemias caused by Topo II inhibitors. Based on these two cases, it may be that Topo II inhibitors can cause clonal evolution affecting chromosome band 11q23.
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PMID:11q23 aberration is an additional chromosomal change in de novo acute leukemia after treatment with etoposide and mitoxantrone. 894 68

The copper complexes of furan oxime derivatives were found to be potent cytotoxic agents in both murine and human tissue cultured cell lines which were either suspended or solid tumors. The ED50 values were frequently improved over the clinically useful antineoplastic agents. These copper complexes of 2-furaldehyde oximes were effective inhibitors of L1210 lymphoid leukemia DNA synthesis followed by RNA synthesis. Purine synthesis regulatory enzyme activities were markedly reduced by the compounds with marginal inhibition of t-RNA polymerase, and nucleoside kinases activities. L1210 DNA topoisomerase II activity was markedly reduced with IC50 values better than the standard VP-16, etoposide. Yet, the copper complexes caused no further protein linked breaks than VP-16 did, but did block phosphorylation activation of the topoisomerase II enzyme.
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PMID:Cytotoxicity of copper complexes of 2-furaldehyde oxime derivatives in murine and human tissue cultured cell lines. 925 56


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