Literature DB >> 11526240

Molecular emergence of acute myeloid leukemia during treatment for acute lymphoblastic leukemia.

J G Blanco1, T Dervieux, M J Edick, P K Mehta, J E Rubnitz, S Shurtleff, S C Raimondi, F G Behm, C H Pui, M V Relling.   

Abstract

Therapy-related acute myeloid leukemias (t-AML) with translocations of the MLL gene are associated with the use of topoisomerase II inhibitors. We established the emergence of the malignant clone in a child who developed t-AML with a t(11;19) (q23;p13.3) during treatment for acute lymphoblastic leukemia (ALL). The MLL-ENL and the reciprocal ENL-MLL genomic fusions and their chimeric transcripts were characterized from samples collected at the time of t-AML diagnosis. We used PCR with patient-specific genomic primers to establish the emergence of the MLL-ENL fusion in serially obtained DNA samples. The MLL-ENL fusion was not detectable in bone marrow at the time of ALL diagnosis or after 2 months of chemotherapy (frequency <8.3 x 10(-7) cells(-1)). The genomic fusion was first detected in bone marrow after 6 months of treatment at a frequency of one in 4,000 mononuclear bone marrow cells; the frequency was one in 70 cells after 20 months of therapy. At the first detection of MLL-ENL, the only topoisomerase II inhibitors the patient had received were one dose of daunorubicin and two doses of etoposide. The MLL-ENL fusion was not detectable in blood at the time of ALL diagnosis or after 0.7, 2, 8, 10, and 12 months of therapy but was detectable in blood at 16 months (one in 2.3 x 10(4) cells). Recombinogenic Alu sequences bracketed the breakpoints in both fusions. These data indicate that the malignant clone was not present before therapy, arose early during chemotherapy, and was able to proliferate even during exposure to antileukemic therapy.

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Year:  2001        PMID: 11526240      PMCID: PMC56962          DOI: 10.1073/pnas.181199898

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  47 in total

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2.  Secondary acute myeloid leukemia in children treated for acute lymphoid leukemia.

Authors:  C H Pui; F G Behm; S C Raimondi; R K Dodge; S L George; G K Rivera; J Mirro; D K Kalwinsky; G V Dahl; S B Murphy
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Authors:  M M Hawkins; L M Wilson; M A Stovall; H B Marsden; M H Potok; J E Kingston; J M Chessells
Journal:  BMJ       Date:  1992-04-11

4.  Prevalence of the inactivating 609C-->T polymorphism in the NAD(P)H:quinone oxidoreductase (NQO1) gene in patients with primary and therapy-related myeloid leukemia.

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5.  Single-strand DNA cleavages by eukaryotic topoisomerase II.

Authors:  M T Muller; J R Spitzner; J A DiDonato; V B Mehta; K Tsutsui; K Tsutsui
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6.  Increased risk of myelodysplasia and leukaemia after etoposide, cisplatin, and bleomycin for germ-cell tumours.

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8.  Acute myeloid leukemia in children treated with epipodophyllotoxins for acute lymphoblastic leukemia.

Authors:  C H Pui; R C Ribeiro; M L Hancock; G K Rivera; W E Evans; S C Raimondi; D R Head; F G Behm; M H Mahmoud; J T Sandlund
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9.  NAD(P)H:quinone oxidoreductase gene expression in human colon carcinoma cells: characterization of a mutation which modulates DT-diaphorase activity and mitomycin sensitivity.

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7.  Preferential induction of MLL(Mixed Lineage Leukemia) rearrangements in human lymphocyte cultures treated with etoposide.

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Review 9.  Molecular mechanisms and pathobiology of oncogenic fusion transcripts in epithelial tumors.

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10.  Acute myeloid leukaemia of donor cell origin developing 17 years after allogenic hematopoietic cell transplantation for acute promyelocytic leukaemia.

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