Literature DB >> 22875638

AML1-ETO driven acute leukemia: insights into pathogenesis and potential therapeutic approaches.

Megan A Hatlen1, Lan Wang, Stephen D Nimer.   

Abstract

The AML1-ETO fusion transcription factor is generated by the t(8;21) translocation, which is present in approximately 4%-12% of adult and 12%-30% of pediatric acute myeloid leukemia (AML) patients. Both human and mouse models of AML have demonstrated that AML1-ETO is insufficient for leukemogenesis in the absence of secondary events. In this review, we discuss the pathogenetic insights that have been gained from identifying the various events that can cooperate with AML1-ETO to induce AML in vivo. We also discuss potential therapeutic strategies for t(8;21) positive AML that involve targeting the fusion protein itself, the proteins that bind to it, or the genes that it regulates. Recently published studies suggest that a targeted therapy for t(8;21) positive AML is feasible and may be coming sometime soon.

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Year:  2012        PMID: 22875638     DOI: 10.1007/s11684-012-0206-6

Source DB:  PubMed          Journal:  Front Med        ISSN: 2095-0217            Impact factor:   4.592


  116 in total

1.  A minicircuitry comprised of microRNA-223 and transcription factors NFI-A and C/EBPalpha regulates human granulopoiesis.

Authors:  Francesco Fazi; Alessandro Rosa; Alessandro Fatica; Vania Gelmetti; Maria Laura De Marchis; Clara Nervi; Irene Bozzoni
Journal:  Cell       Date:  2005-12-02       Impact factor: 41.582

2.  Implications of NRAS mutations in AML: a study of 2502 patients.

Authors:  Ulrike Bacher; Torsten Haferlach; Claudia Schoch; Wolfgang Kern; Susanne Schnittger
Journal:  Blood       Date:  2006-01-24       Impact factor: 22.113

3.  The AML1-ETO fusion protein promotes the expansion of human hematopoietic stem cells.

Authors:  James C Mulloy; Jörg Cammenga; Karen L MacKenzie; Francisco J Berguido; Malcolm A S Moore; Stephen D Nimer
Journal:  Blood       Date:  2002-01-01       Impact factor: 22.113

4.  C-KIT mutation cooperates with full-length AML1-ETO to induce acute myeloid leukemia in mice.

Authors:  Yue-Ying Wang; Li-Juan Zhao; Chuan-Feng Wu; Ping Liu; Lin Shi; Yang Liang; Shu-Min Xiong; Jian-Qing Mi; Zhu Chen; Ruibao Ren; Sai-Juan Chen
Journal:  Proc Natl Acad Sci U S A       Date:  2011-01-24       Impact factor: 11.205

5.  Analysis of the role of AML1-ETO in leukemogenesis, using an inducible transgenic mouse model.

Authors:  K L Rhoades; C J Hetherington; N Harakawa; D A Yergeau; L Zhou; L Q Liu; M T Little; D G Tenen; D E Zhang
Journal:  Blood       Date:  2000-09-15       Impact factor: 22.113

6.  DNMT3A mutations in acute myeloid leukemia.

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Journal:  N Engl J Med       Date:  2010-11-10       Impact factor: 91.245

7.  ETO, fusion partner in t(8;21) acute myeloid leukemia, represses transcription by interaction with the human N-CoR/mSin3/HDAC1 complex.

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Journal:  Proc Natl Acad Sci U S A       Date:  1998-09-01       Impact factor: 11.205

8.  AML1 is functionally regulated through p300-mediated acetylation on specific lysine residues.

Authors:  Yuko Yamaguchi; Mineo Kurokawa; Yoichi Imai; Koji Izutsu; Takashi Asai; Motoshi Ichikawa; Go Yamamoto; Eriko Nitta; Tetsuya Yamagata; Kazuki Sasaki; Kinuko Mitani; Seishi Ogawa; Shigeru Chiba; Hisamaru Hirai
Journal:  J Biol Chem       Date:  2004-01-29       Impact factor: 5.157

9.  AML1, the target of multiple chromosomal translocations in human leukemia, is essential for normal fetal liver hematopoiesis.

Authors:  T Okuda; J van Deursen; S W Hiebert; G Grosveld; J R Downing
Journal:  Cell       Date:  1996-01-26       Impact factor: 41.582

10.  The ETO portion of acute myeloid leukemia t(8;21) fusion transcript encodes a highly evolutionarily conserved, putative transcription factor.

Authors:  P F Erickson; M Robinson; G Owens; H A Drabkin
Journal:  Cancer Res       Date:  1994-04-01       Impact factor: 12.701
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  36 in total

1.  Oroxylin A, a natural anticancer flavonoid compound, induces differentiation of t(8;21)-positive Kasumi-1 and primary acute myeloid leukemia cells.

Authors:  Hui Hui; Xiaoxiao Zhang; Hui Li; Xiao Liu; Le Shen; Yu Zhu; Jingyan Xu; Qinglong Guo; Na Lu
Journal:  J Cancer Res Clin Oncol       Date:  2016-04-16       Impact factor: 4.553

2.  Homoharringtonine deregulates MYC transcriptional expression by directly binding NF-κB repressing factor.

Authors:  Xin-Jie Chen; Wei-Na Zhang; Bing Chen; Wen-Da Xi; Ying Lu; Jin-Yan Huang; Yue-Ying Wang; Jun Long; Song-Fang Wu; Yun-Xiang Zhang; Shu Wang; Si-Xing Li; Tong Yin; Min Lu; Xiao-Dong Xi; Jun-Min Li; Kan-Kan Wang; Zhu Chen; Sai-Juan Chen
Journal:  Proc Natl Acad Sci U S A       Date:  2019-01-18       Impact factor: 11.205

3.  Phosphatase PRL2 promotes AML1-ETO-induced acute myeloid leukemia.

Authors:  M Kobayashi; S Chen; Y Bai; C Yao; R Gao; X-J Sun; C Mu; T A Twiggs; Z-H Yu; H S Boswell; M C Yoder; R Kapur; J C Mulloy; Z-Y Zhang; Y Liu
Journal:  Leukemia       Date:  2017-02-21       Impact factor: 11.528

4.  Caspase-3 controls AML1-ETO-driven leukemogenesis via autophagy modulation in a ULK1-dependent manner.

Authors:  Na Man; Yurong Tan; Xiao-Jian Sun; Fan Liu; Guoyan Cheng; Sarah M Greenblatt; Camilo Martinez; Daniel L Karl; Koji Ando; Ming Sun; Dan Hou; Bingyi Chen; Mingjiang Xu; Feng-Chun Yang; Zhu Chen; Saijuan Chen; Stephen D Nimer; Lan Wang
Journal:  Blood       Date:  2017-04-05       Impact factor: 22.113

5.  Regulation of AKT signaling by Id1 controls t(8;21) leukemia initiation and progression.

Authors:  Lan Wang; Na Man; Xiao-Jian Sun; Yurong Tan; Marta García-Cao; Marta Garcia Cao; Fan Liu; Megan Hatlen; Haiming Xu; Gang Huang; Meredith Mattlin; Arpit Mehta; Evadnie Rampersaud; Robert Benezra; Stephen D Nimer
Journal:  Blood       Date:  2015-06-17       Impact factor: 22.113

6.  The bone marrow niche, stem cells, and leukemia: impact of drugs, chemicals, and the environment.

Authors:  Helmut Greim; Debra A Kaden; Richard A Larson; Christine M Palermo; Jerry M Rice; David Ross; Robert Snyder
Journal:  Ann N Y Acad Sci       Date:  2014-02-04       Impact factor: 5.691

7.  Silencing AML1-ETO gene expression leads to simultaneous activation of both pro-apoptotic and proliferation signaling.

Authors:  P V Spirin; T D Lebedev; N N Orlova; A S Gornostaeva; M M Prokofjeva; N A Nikitenko; S E Dmitriev; A A Buzdin; N M Borisov; A M Aliper; A V Garazha; P M Rubtsov; C Stocking; V S Prassolov
Journal:  Leukemia       Date:  2014-04-14       Impact factor: 11.528

8.  Suppression of Breast Cancer Stem Cells and Tumor Growth by the RUNX1 Transcription Factor.

Authors:  Deli Hong; Andrew J Fritz; Kristiaan H Finstad; Mark P Fitzgerald; Adam Weinheimer; Adam L Viens; Jon Ramsey; Janet L Stein; Jane B Lian; Gary S Stein
Journal:  Mol Cancer Res       Date:  2018-08-06       Impact factor: 5.852

9.  Frequent ASXL2 mutations in acute myeloid leukemia patients with t(8;21)/RUNX1-RUNX1T1 chromosomal translocations.

Authors:  Jean-Baptiste Micol; Nicolas Duployez; Nicolas Boissel; Arnaud Petit; Sandrine Geffroy; Olivier Nibourel; Catherine Lacombe; Helene Lapillonne; Pascaline Etancelin; Martin Figeac; Aline Renneville; Sylvie Castaigne; Guy Leverger; Norbert Ifrah; Hervé Dombret; Claude Preudhomme; Omar Abdel-Wahab; Eric Jourdan
Journal:  Blood       Date:  2014-06-27       Impact factor: 22.113

10.  Different roles of E proteins in t(8;21) leukemia: E2-2 compromises the function of AETFC and negatively regulates leukemogenesis.

Authors:  Na Liu; Junhong Song; Yangyang Xie; Xiao-Lin Wang; Bowen Rong; Na Man; Meng-Meng Zhang; Qunling Zhang; Fei-Fei Gao; Mei-Rong Du; Ying Zhang; Jian Shen; Chun-Hui Xu; Cheng-Long Hu; Ji-Chuan Wu; Ping Liu; Yuan-Liang Zhang; Yin-Yin Xie; Ping Liu; Jin-Yan Huang; Qiu-Hua Huang; Fei Lan; Shuhong Shen; Stephen D Nimer; Zhu Chen; Sai-Juan Chen; Robert G Roeder; Lan Wang; Xiao-Jian Sun
Journal:  Proc Natl Acad Sci U S A       Date:  2018-12-28       Impact factor: 11.205
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