Literature DB >> 17485549

Trisomy 13 is strongly associated with AML1/RUNX1 mutations and increased FLT3 expression in acute myeloid leukemia.

Frank Dicker1, Claudia Haferlach, Wolfgang Kern, Torsten Haferlach, Susanne Schnittger.   

Abstract

AML1/RUNX1 is implicated in leukemogenesis on the basis of the AML1-ETO fusion transcript as well as somatic mutations in its DNA-binding domain. Somatic mutations in RUNX1 are preferentially detected in acute myeloid leukemia (AML) M0, myeloid malignancies with acquired trisomy 21, and certain myelodysplastic syndrome (MDS) cases. By correlating the presence of RUNX1 mutations with cytogenetic and molecular aberration in a large cohort of AML M0 (N = 90) at diagnosis, we detected RUNX1 mutations in 46% of cases, with all trisomy 13 cases (n = 18) being affected. No mutations of NRAS or KIT were detected in the RUNX1-mutated group and FLT3 mutations were equally distributed between RUNX1-mutated and unmutated samples. Likewise, a high incidence of RUNX1 mutations (80%) was detected in cases with trisomy 13 from other French-American-British (FAB) subgroups (n = 20). As FLT3 is localized on chromosome 13, we hypothesized that RUNX1 mutations might cooperate with trisomy 13 in leukemogenesis by increasing FLT3 transcript levels. Quantitation of FLT3 transcript levels revealed a highly significant (P < .001) about 5-fold increase in AML with RUNX1 mutations and trisomy 13 compared with samples without trisomy 13. The results of the present study indicate that in the absence of FLT3 mutations, FLT3 overexpression might be a mechanism for FLT3 activation, which cooperates with RUNX1 mutations in leukemogenesis.

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Year:  2007        PMID: 17485549     DOI: 10.1182/blood-2007-02-072595

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  31 in total

1.  Prognostic gene mutations and distinct gene- and microRNA-expression signatures in acute myeloid leukemia with a sole trisomy 8.

Authors:  Guido Marcucci; Clara D Bloomfield; Heiko Becker; Kati Maharry; Krzysztof Mrózek; Stefano Volinia; Ann-Kathrin Eisfeld; Michael D Radmacher; Jessica Kohlschmidt; Klaus H Metzeler; Sebastian Schwind; Susan P Whitman; Jason H Mendler; Yue-Zhong Wu; Deedra Nicolet; Peter Paschka; Bayard L Powell; Thomas H Carter; Meir Wetzler; Jonathan E Kolitz; Andrew J Carroll; Maria R Baer; Michael A Caligiuri; Richard M Stone
Journal:  Leukemia       Date:  2014-03-21       Impact factor: 11.528

2.  Clinical and molecular characterization of patients with acute myeloid leukemia and sole trisomies of chromosomes 4, 8, 11, 13 or 21.

Authors:  Bhavana Bhatnagar; Ann-Kathrin Eisfeld; Jessica Kohlschmidt; Krzysztof Mrózek; Deedra Nicolet; Dimitrios Papaioannou; Christopher J Walker; Shelley Orwick; James S Blachly; Jonathan E Kolitz; Bayard L Powell; Andrew J Carroll; Richard M Stone; John C Byrd; Clara D Bloomfield
Journal:  Leukemia       Date:  2019-08-28       Impact factor: 11.528

3.  Use of CBL exon 8 and 9 mutations in diagnosis of myeloproliferative neoplasms and myelodysplastic/myeloproliferative disorders: an analysis of 636 cases.

Authors:  Susanne Schnittger; Ulrike Bacher; Tamara Alpermann; Andreas Reiter; Madlen Ulke; Frank Dicker; Christiane Eder; Alexander Kohlmann; Vera Grossmann; Andreas Kowarsch; Wolfgang Kern; Claudia Haferlach; Torsten Haferlach
Journal:  Haematologica       Date:  2012-06-24       Impact factor: 9.941

4.  Acute myeloid leukemia with t(10;17)(p13;q12) chromosome translocation: a case report and literature review.

Authors:  Lu Li; Fan Zhou; Jian Hou
Journal:  Am J Blood Res       Date:  2012-11-25

5.  Frequent genomic abnormalities in acute myeloid leukemia/myelodysplastic syndrome with normal karyotype.

Authors:  Tadayuki Akagi; Seishi Ogawa; Martin Dugas; Norihiko Kawamata; Go Yamamoto; Yasuhito Nannya; Masashi Sanada; Carl W Miller; Amanda Yung; Susanne Schnittger; Torsten Haferlach; Claudia Haferlach; H Phillip Koeffler
Journal:  Haematologica       Date:  2009-01-14       Impact factor: 9.941

6.  Genome wide molecular analysis of minimally differentiated acute myeloid leukemia.

Authors:  Fernando P G Silva; Inês Almeida; Bruno Morolli; Geeske Brouwer-Mandema; Hans Wessels; Rolf Vossen; Harry Vrieling; Erik W A Marijt; Peter J M Valk; Hanneke C Kluin-Nelemans; Wolfgang R Sperr; Wolf-Dieter Ludwig; Micheline Giphart-Gassler
Journal:  Haematologica       Date:  2009-09-22       Impact factor: 9.941

Review 7.  A role for RUNX1 in hematopoiesis and myeloid leukemia.

Authors:  Motoshi Ichikawa; Akihide Yoshimi; Masahiro Nakagawa; Nahoko Nishimoto; Naoko Watanabe-Okochi; Mineo Kurokawa
Journal:  Int J Hematol       Date:  2013-04-24       Impact factor: 2.490

8.  Single-agent lenalidomide induces complete remission of acute myeloid leukemia in patients with isolated trisomy 13.

Authors:  Todd A Fehniger; John C Byrd; Guido Marcucci; Camille N Abboud; Cheryl Kefauver; Jacqueline E Payton; Ravi Vij; William Blum
Journal:  Blood       Date:  2008-09-29       Impact factor: 22.113

9.  A new recurring chromosome 13 abnormality in two older patients with de novo acute myeloid leukemia: An Indian experience.

Authors:  P J Trivedi; P S Patel; M M Brahmbhatt; B P Patel; S B Gajjar; E N Dalal; S N Shukla; P M Shah; S R Bakshi
Journal:  Indian J Hum Genet       Date:  2009-09

10.  RUNX1 mutations in acute myeloid leukemia are associated with distinct clinico-pathologic and genetic features.

Authors:  V I Gaidzik; V Teleanu; E Papaemmanuil; D Weber; P Paschka; J Hahn; T Wallrabenstein; B Kolbinger; C H Köhne; H A Horst; P Brossart; G Held; A Kündgen; M Ringhoffer; K Götze; M Rummel; M Gerstung; P Campbell; J M Kraus; H A Kestler; F Thol; M Heuser; B Schlegelberger; A Ganser; L Bullinger; R F Schlenk; K Döhner; H Döhner
Journal:  Leukemia       Date:  2016-05-03       Impact factor: 11.528
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