Literature DB >> 16015387

Mutations in KIT and RAS are frequent events in pediatric core-binding factor acute myeloid leukemia.

B F Goemans1, C M Zwaan, M Miller, M Zimmermann, A Harlow, S Meshinchi, A H Loonen, K Hählen, D Reinhardt, U Creutzig, G J L Kaspers, M C Heinrich.   

Abstract

Activating mutations in RAS and receptor tyrosine kinases such as KIT and FLT3 are hypothesized to cooperate with chimeric transcription factors in the pathogenesis of acute myeloid leukemia (AML). To test this hypothesis, we genotyped 150 pediatric AML samples for mutations in KIT (exons 8, 17), NRAS and KRAS (exons 1, 2) and FLT3/ITD. This is the largest cohort of pediatric AML patients reported thus far screened for all four mutations. Of the children with AML, 40% had a mutation in KIT (11.3%), RAS (18%) or FLT3/ITD (11.1%), and 70% of cases of core-binding factor (CBF) leukemia were associated with a mutation of KIT or RAS. Mutations in RAS or FLT3/ITD were frequently found in association with a normal karyotype. Patients with a FLT3/ITD mutation had a significantly worse clinical outcome. However, the presence of a KIT or RAS mutation did not significantly influence clinical outcome. We demonstrate that KIT exon 8 mutations result in constitutive ligand-independent kinase activation that can be inhibited by clinically relevant concentrations of imatinib. Our results demonstrate that abnormalities of signal transduction pathways are frequent in pediatric AML. Future clinical studies are needed to determine whether selective targeting of these abnormalities will improve treatment results.

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Year:  2005        PMID: 16015387     DOI: 10.1038/sj.leu.2403870

Source DB:  PubMed          Journal:  Leukemia        ISSN: 0887-6924            Impact factor:   11.528


  63 in total

1.  RAS mutations are frequent in FAB type M4 and M5 of acute myeloid leukemia, and related to late relapse: a study of the Japanese Childhood AML Cooperative Study Group.

Authors:  Hirozumi Sano; Akira Shimada; Tomohiko Taki; Chisato Murata; Myoung-Ja Park; Manabu Sotomatsu; Ken Tabuchi; Akio Tawa; Ryoji Kobayashi; Keizo Horibe; Masahiro Tsuchida; Ryoji Hanada; Ichiro Tsukimoto; Yasuhide Hayashi
Journal:  Int J Hematol       Date:  2012-03-10       Impact factor: 2.490

Review 2.  Core binding factor acute myeloid leukemia: Advances in the heterogeneity of KIT, FLT3, and RAS mutations (Review).

Authors:  Xi Quan; Jianchuan Deng
Journal:  Mol Clin Oncol       Date:  2020-05-25

3.  New insights into transcriptional and leukemogenic mechanisms of AML1-ETO and E2A fusion proteins.

Authors:  Jian Li; Chun Guo; Nickolas Steinauer; Jinsong Zhang
Journal:  Front Biol (Beijing)       Date:  2016-09-03

4.  Low frequency of KIT gene mutation in pediatric acute myeloid leukemia with inv(16)(p13q22): a study of the Japanese Childhood AML Cooperative Study Group.

Authors:  Akira Shimada; Hitoshi Ichikawa; Tomohiko Taki; Chisato Kubota; Teruaki Hongo; Masahiro Sako; Akira Morimoto; Akio Tawa; Ichiro Tsukimoto; Yasuhide Hayashi
Journal:  Int J Hematol       Date:  2007-10       Impact factor: 2.490

5.  Correlation of minimal residual disease cell frequency with molecular genotype in patients with acute myeloid leukemia.

Authors:  Corine J Hess; Nicole Feller; Fedor Denkers; Angèle Kelder; Pauline A Merle; Michael C Heinrich; Amy Harlow; Johannes Berkhof; Gert J Ossenkoppele; Quinten Waisfisz; Gerrit J Schuurhuis
Journal:  Haematologica       Date:  2008-11-27       Impact factor: 9.941

6.  Stem cell exhaustion due to Runx1 deficiency is prevented by Evi5 activation in leukemogenesis.

Authors:  Bindya Jacob; Motomi Osato; Namiko Yamashita; Chelsia Qiuxia Wang; Ichiro Taniuchi; Dan R Littman; Norio Asou; Yoshiaki Ito
Journal:  Blood       Date:  2009-12-14       Impact factor: 22.113

Review 7.  Children's Oncology Group's 2013 blueprint for research: acute myeloid leukemia.

Authors:  Alan S Gamis; Todd A Alonzo; John P Perentesis; Soheil Meshinchi
Journal:  Pediatr Blood Cancer       Date:  2012-12-19       Impact factor: 3.167

8.  HOX expression patterns identify a common signature for favorable AML.

Authors:  M Andreeff; V Ruvolo; S Gadgil; C Zeng; K Coombes; W Chen; S Kornblau; A E Barón; H A Drabkin
Journal:  Leukemia       Date:  2008-07-31       Impact factor: 11.528

9.  Modeling interactions between leukemia-specific chromosomal changes, somatic mutations, and gene expression patterns during progression of core-binding factor leukemias.

Authors:  Dan Jones; Hui Yao; Angela Romans; Caroline Dando; Sherry Pierce; Gautam Borthakur; Amy Hamilton; Carlos Bueso-Ramos; Farhad Ravandi; Guillermo Garcia-Manero; Hagop Kantarjian
Journal:  Genes Chromosomes Cancer       Date:  2010-02       Impact factor: 5.006

10.  Prevalence and prognostic significance of KIT mutations in pediatric patients with core binding factor AML enrolled on serial pediatric cooperative trials for de novo AML.

Authors:  Jessica A Pollard; Todd A Alonzo; Robert B Gerbing; Phoenix A Ho; Rong Zeng; Yaddanapudi Ravindranath; Gary Dahl; Norman J Lacayo; David Becton; Myron Chang; Howard J Weinstein; Betsy Hirsch; Susana C Raimondi; Nyla A Heerema; William G Woods; Beverly J Lange; Craig Hurwitz; Robert J Arceci; Jerald P Radich; Irwin D Bernstein; Michael C Heinrich; Soheil Meshinchi
Journal:  Blood       Date:  2010-01-07       Impact factor: 22.113
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