Subtype-specific regulatory network rewiring in acute myeloid leukemia

被引:0
|
作者
Salam A. Assi
Maria Rosaria Imperato
Daniel J. L. Coleman
Anna Pickin
Sandeep Potluri
Anetta Ptasinska
Paulynn Suyin Chin
Helen Blair
Pierre Cauchy
Sally R. James
Joaquin Zacarias-Cabeza
L. Niall Gilding
Andrew Beggs
Sam Clokie
Justin C. Loke
Phil Jenkin
Ash Uddin
Ruud Delwel
Stephen J. Richards
Manoj Raghavan
Michael J. Griffiths
Olaf Heidenreich
Peter N. Cockerill
Constanze Bonifer
机构
[1] University of Birmingham,Institute of Cancer and Genomic Sciences
[2] University of Newcastle,Northern Institute for Cancer Research
[3] University of Leeds,Section of Experimental Haematology, Leeds Institute for Molecular Medicine
[4] Birmingham Women’s NHS Foundation Trust,West Midlands Regional Genetics Laboratory
[5] CMT Laboratory NHS Blood & Transplant,Department of Hematology
[6] Edgbaston,Oncode Institute, Erasmus MC
[7] Erasmus University Medical Center,Haematological Malignancy Diagnostic Service
[8] Erasmus University Medical Center,Centre for Clinical Haematology
[9] St. James’s University Hospital,undefined
[10] Queen Elizabeth Hospital,undefined
[11] Princess Maxima Centrum for Pediatric Oncology,undefined
来源
Nature Genetics | 2019年 / 51卷
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摘要
Acute myeloid leukemia (AML) is a heterogeneous disease caused by a variety of alterations in transcription factors, epigenetic regulators and signaling molecules. To determine how different mutant regulators establish AML subtype–specific transcriptional networks, we performed a comprehensive global analysis of cis-regulatory element activity and interaction, transcription factor occupancy and gene expression patterns in purified leukemic blast cells. Here, we focused on specific subgroups of subjects carrying mutations in genes encoding transcription factors (RUNX1, CEBPα), signaling molecules (FTL3-ITD, RAS) and the nuclear protein NPM1). Integrated analysis of these data demonstrates that each mutant regulator establishes a specific transcriptional and signaling network unrelated to that seen in normal cells, sustaining the expression of unique sets of genes required for AML growth and maintenance.
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页码:151 / 162
页数:11
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