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: EC:5.99.1.3 (topoisomerase)
9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phenotypic conversion from acute myeloid leukemia (AML) to acute lymphoblastic leukemia (ALL) is rare. A 38-year-old man was initially diagnosed as having AML (FAB-M2) associated with the t(8;21)(q22;q22) chromosomal abnormality. The blasts showed myeloperoxidase (MPO) activity and CD13 antigen expression. He showed complete remission after standard chemotherapy for AML. However, the patient relapsed with blasts showing ALL morphology (FAB-L1), MPO negativity, and CD19 antigen expression 33 months after cessation of AML therapy. Cytogenetic analysis at relapse was unsuccessful. Molecular analysis of ALL blasts revealed immunoglobulin heavy-chain gene and MLL gene rearrangements but no AML1 gene. MLL gene rearrangement or the 11q23 chromosomal abnormality has been associated with therapy-related leukemia. The subsequent ALL in our patient may have been induced by the chemotherapy including daunorubicin, known as a topoisomerase II inhibitor.
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PMID:Phenotypic conversion from t(8;21) acute myeloid leukemia to MLL gene rearrangement-positive acute lymphoblastic leukemia. 984 25

The t(9;11)(p22;q23) is the most common chromosomal translocation in topoisomerase II inhibitor therapy-related acute myeloid leukemia (tAML). This translocation fuses the MLL and AF9 proto-oncogenes producing a novel chimeric protein. In order to gain insight into the mechanism generating the t(9;11) and to clarify the role topoisomerase II inhibition may play in that mechanism we have cloned and sequenced the breakpoints from four tAML patients with the t(9;11). This sequence analysis identifies topoisomerase II consensus binding sequences near or at the chromosome 11 and chromosome 9 breakpoints in all four patients. One patient also had the consensus binding sequence for the TRANSLIN DNA-binding protein at the 9p22 and 11q23 breakpoints. Our results further support a direct role for topoisomerase II in the genesis of these tAML translocations.
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PMID:Cloning and sequence analysis of four t(9;11) therapy-related leukemia breakpoints. 984 20

Leukemia in the first year of life is extremely rare world-wide. However, unlike leukemias in older children, nearly 75% of infant leukemias demonstrate a specific abnormality involving a gene, MLL, on chromosome band 11q23. Molecular studies suggest strongly that these leukemias occur in utero. Treatment-related acute myeloid leukemias (AML), associated with specific chemotherapeutic agents that inhibit DNA topoisomerase II (topo 2), also manifest identical abnormalities involving the MLL gene. This led us to speculate that maternal exposure during pregnancy to environmental agents that inhibit DNA topo 2 may be associated with the development of leukemia in infants. DNA topo 2 inhibitors have been found in specific fruits and vegetables, and in soy, coffee, wine, tea and cocoa, as well as in certain pesticides, solvents and medications. In a preliminary study, we reinterviewed mothers of infant cases and their matched controls who had participated previously in 1 of 3 epidemiologic studies of childhood leukemia conducted by the Children's Cancer Group over a 10-year period. We evaluated potential DNA topo 2 inhibitor exposure through maternal diet and medications. Of the 84 original matched sets who were reinterviewed, there was no positive association with increasing maternal consumption of DNA topo 2 inhibitor-containing foods either for the overall group or for infants in the acute lymphoblastic leukemia stratum. However, there was an approximately 10-fold higher risk of infant AML with increasing maternal consumption of DNA topo 2 inhibitor-containing foods. The assay to screen environmental agents that inhibit DNA topo 2 has been established and new inhibitors are being identified routinely.
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PMID:Maternal diet and infant leukemia: a role for DNA topoisomerase II inhibitors? 987 73

Recent molecular-genetic studies have revealed that in the majority of patients with secondary leukemia induced by topoisomerase II (topo II) inhibitors and also with infantile acute leukemia (IAL), the breakpoints are clustered within scaffold attachment regions (SARs) of 3'-MLL-bcr near exon 9. Genistein, abundant in soybeans, is reported to be a potent nonintercalative topo II inhibitor. It interferes with the break-reseal reaction of topo II by stabilizing a cleavable complex, which in the presence of detergents, results in DNA strand breaks. The present study revealed that genistein induced chromatid-type aberrations, in which chromatid exchanges are often observed. Genistein seems to act in a manner very similar to that of VP-16, although the latter is reported to produce both chromatid- and chromosome-type aberrations. In view of this pharmacological similarity between genistein and VP-16, and also the similarity of breakpoint clustering regions within the MLL gene in reported cases with secondary leukemia and IAL, genistein may be largely responsible for the development of IAL.
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PMID:Infantile leukemia and soybeans--a hypothesis. 1072 Jan 57

MLL (ALL1, Htrx, HRX), which is located on chromosome band 11q23, frequently is rearranged in patients with therapy-related acute myeloid leukemia who previously were treated with DNA topoisomerase II inhibitors. In this study, we have identified a fusion partner of MLL in a 10-year-old female who developed therapy-related acute myeloid leukemia 17 months after treatment for Hodgkin's disease. Leukemia cells of this patient had a t(11;17)(q23;q25), which involved MLL as demonstrated by Southern blot analysis. The partner gene was cloned from cDNA of the leukemia cells by use of a combination of adapter reverse transcriptase-PCR, rapid amplification of 5' cDNA ends, and BLAST database analysis to identify expressed sequence tags. The full-length cDNA of 2.8 kb was found to be an additional member of the septin family, therefore it was named MSF (MLL septin-like fusion). Members of the septin family conserve the GTP binding domain, localize in the cytoplasm, and interact with cytoskeletal filaments. A major 4-kb transcript of MSF was expressed ubiquitously; a 1.7-kb transcript was found in most tissues. An additional 3-kb transcript was found only in hematopoietic tissues. By amplification with MLL exon 5 forward primer and reverse primers in MSF, the appropriately sized products were obtained. MSF is highly homologous to hCDCrel-1, which is a partner gene of MLL in leukemias with a t(11;22)(q23;q11.2). Further analysis of MSF may help to delineate the function of MLL partner genes in leukemia, particularly in therapy-related leukemia.
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PMID:MSF (MLL septin-like fusion), a fusion partner gene of MLL, in a therapy-related acute myeloid leukemia with a t(11;17)(q23;q25). 1033 4

Acute lymphoblastic leukemia (ALL) and acute myeloid leukemia (AML) in infants have in common a high incidence of translocations of the MLL gene at chromosome band 11q23. Similar translocations occur in leukemias associated with chemotherapies that target DNA topoisomerase II. MLL has numerous different partner genes. The role of the many MLL fusion proteins in leukemogenesis is not yet understood. The t(4;11) translocation, the most common translocation in infant ALL, adversely affects the outcome. Additional genetic changes, especially Ikaros alterations, are found in infant ALL. Other forms of myeloid leukemia in infants present as myelodysplastic and myeloproliferative syndromes, which may be associated with constitutional disorders. This review will consider all leukemia in infants, but will focus on leukemias with MLL gene translocations.
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PMID:Leukemia in infants. 1039 90

Rearrangements and fusion of the MLL gene with various alternative partner genes occur in approximately 80% of infant leukemias and are acquired during fetal hemopoiesis in utero. Similar MLL gene recombinants also occur in topoisomerase II-inhibiting drug-induced leukemias. These data have led to the suggestion that some infant leukemia may arise via transplacental fetal exposures during pregnancy to substances that form cleavable complexes with topoisomerase II and induce illegitimate recombination of the MLL gene. A structural feature shared by many topoisomerase II-inhibiting drugs and other chemicals is the quinone moiety. We assayed, by PCR-RFLP, for a polymorphism in an enzyme that detoxifies quinones, NAD(P)H:quinone oxidoreductase (NQO1), in a series (n = 36) of infant leukemias with MLL rearrangements versus unselected cord blood controls (n = 100). MLL-rearranged leukemias were more likely to have genotypes with low NQO1 function (heterozygous CT or homozygous TT at nucleotide 609) than controls (odds ratio, 2.5; P = 0.015). In contrast, no significant allele bias was seen in other groups of pediatric leukemias with TEL-AML1 fusions (n = 50) or hyperdiploidy (n = 29). In the subset of infant leukemias that had MLL-AF4 fusion genes (n = 21), the bias increase in low or null function NQO1 genotypes was more pronounced (odds ratio, 8.12; P = 0.00013). These data support the idea of a novel causal mechanism in infant leukemia involving genotoxic exposure in utero and modulation of impact on a selective target gene by an inherited allele encoding a rate-limiting step in a carcinogen detoxification pathway.
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PMID:A lack of a functional NAD(P)H:quinone oxidoreductase allele is selectively associated with pediatric leukemias that have MLL fusions. United Kingdom Childhood Cancer Study Investigators. 1046 13

Clinically distinct features in both alkylating agents--and topoisomerase II (topo II)-induced secondary leukemias (SL) are reviewed with special reference to the increasing frequencies observed in relation to advances in modern cancer chemotherapy. Topo II interacts with, and then stabilizes the cleavable complex that ultimately results in double strand breaks. In patients with SL, breakpoints in MLL gene are clustered within SARs of 3' bcr. However, mechanisms by which the former type of SL is caused remain to be elucidated. Since alkylating agents often induce profound marrow dysplasia, long-lived lesions induced on hematopoietic stem cells are of potential relevance to the development of SL. This process may be partially demonstrated by the variety of mitotic modifications found in MDS. Recently, the association has been investigated between certain enzyme polymorphisms related to activation or detoxification of anticancer agents and SL. These studies have potential importance, since individuals with a certain genotype may be at increased risk for SL.
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PMID:[Secondary leukemias: their clinical features, incidence among populations at risk, mechanisms and new strategy for prediction]. 1058 63

The frequency of leukemia and myelodysplasia following treatment with cytotoxic agents is increasing. Theses treatment-related leukemias raise both theoretical and practical concerns. On a theoretical basis, cytogenetic and molecular abnormalities described constitute useful models to study leukemogenesis. On a practical basis, prognosis of treatment related-leukemia is somehow unfavorable and implies to take in account this risk in the development of combination therapy for solid tumors or hematological malignancies. There are two distinctive types of treatment-induced leukemia: those secondary after alkylating agents and those secondary after topoisomerase-II- inhibitors. These two types of leukemia after regarding their clinical and their hematological characteristics, but also regarding their prognosis and their associated molecular abnormalities. Leukemias induced by alkylating agents occur generally 5 or 6 years after the beginning of the chemotherapy and are preceded by a more or less long phase of pancytopenia or myelodysplasia and according to their cytologic aspects are difficult to be classified within FAB classification. Their prognosis is pejorative. The most commonly found cytogenetic abnormalities associated with these types of induced leukemia are losses or deletions of chromosomes 5 and 7. Leukemias induced by topoisomerase-II-inhibitors occur shortly after the treatment (12 to 30 months), they begin generally suddenly without preleukemia prodom and their more frequent cytological aspects are M4 and M5 type. The prognosis is less severe than alkylating agent related forms with higher response rates and is dependant of discovered cytogenetic abnormalities. The more frequent molecular abnormalities are not chromosome deletions but balanced translocations. They affect particularly the MLL gene located at band 11q23. Other translocations have been described in this type of leukemia and are comparable to the one found in the de novo leukemia (t8;21, t15;17) for example. The evaluation of the risk of treatment-related leukemia for a given chemotherapeutic agent is difficult as for as current treatment use the combination of several agents potentially leukemogenic (chemotherapy and radiotherapy, combination chemotherapy). It is necessary to set up an up-dated data register in order to centralize all therapy-related myelodysplasia and leukemia within the treatment of a given type of cancer.
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PMID:[Leukemias induced by anticancer chemotherapies]. 1058 9

We describe a boy with Fanconi anemia (FA) who developed acute lymphoblastic leukemia (ALL) (FAB-LI) followed by acute myeloid leukemia (AML) (FAB-M5) at relapse. The patient was diagnosed with early pre-B-cell ALL without preceding aplastic anemia and was treated with ALL-oriented chemotherapy which included doxorubicin (a total dose of 140 mg/m(2) administered), which is a topoisomerase II inhibitor. Complete remission was obtained, but after 38 weeks AML developed. The karyotype of ALL cells at diagnosis showed 46,XY, and that of AML cells at relapse was 46,XY, t(11;16)(q23;p13). An MLL gene rearrangement and MLL-CBP chimeric mRNA were found in AML, but not in ALL. A diagnosis of FA was confirmed by an increased number of chromosomal breaks and rearrangements in peripheral blood lymphocytes cultured with mitogen in the presence of mitomycin C. We conclude that this FA patient developed ALL followed by a therapy-related t(11;16)-AML resulting in an MLL-CBP fusion. Further examination of such patients would shed light on leukemogenesis in FA patients. Genes Chromosomes Cancer 27:264-269, 2000.
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PMID:MLL-CBP fusion transcript in a therapy-related acute myeloid leukemia with the t(11;16)(q23;p13) which developed in an acute lymphoblastic leukemia patient with Fanconi anemia. 1067 15


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