BRD4-mediated repression of p53 is a target for combination therapy in AML

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作者
Anne-Louise Latif
Ashley Newcombe
Sha Li
Kathryn Gilroy
Neil A. Robertson
Xue Lei
Helen J. S. Stewart
John Cole
Maria Terradas Terradas
Loveena Rishi
Lynn McGarry
Claire McKeeve
Claire Reid
William Clark
Joana Campos
Kristina Kirschner
Andrew Davis
Jonathan Lopez
Jun-ichi Sakamaki
Jennifer P. Morton
Kevin M. Ryan
Stephen W. G. Tait
Sheela A. Abraham
Tessa Holyoake
Brian Higgins
Xu Huang
Karen Blyth
Mhairi Copland
Timothy J. T. Chevassut
Karen Keeshan
Peter D. Adams
机构
[1] University of Glasgow,Institute of Cancer Sciences
[2] Sanford Burnham Prebys Medical Discovery Institute,Brighton and Sussex Medical School
[3] University of Sussex,West of Scotland Genomics Services (Laboratories)
[4] Cancer Research UK Beatson Institute,Paul O’Gorman Leukemia Research Centre, Institute of Cancer Sciences
[5] Queen Elizabeth University Hospital,Pharma Research and Early Development
[6] College of Medical Veterinary and Life Sciences,Department Of Biomedical And Molecular Sciences
[7] University of Glasgow,undefined
[8] Roche Innovation Center-New York,undefined
[9] Queen’s University,undefined
[10] Sanford Burnham Prebys Medical Discovery Institute,undefined
来源
Nature Communications | / 12卷
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摘要
Acute myeloid leukemia (AML) is a typically lethal molecularly heterogeneous disease, with few broad-spectrum therapeutic targets. Unusually, most AML retain wild-type TP53, encoding the pro-apoptotic tumor suppressor p53. MDM2 inhibitors (MDM2i), which activate wild-type p53, and BET inhibitors (BETi), targeting the BET-family co-activator BRD4, both show encouraging pre-clinical activity, but limited clinical activity as single agents. Here, we report enhanced toxicity of combined MDM2i and BETi towards AML cell lines, primary human blasts and mouse models, resulting from BETi’s ability to evict an unexpected repressive form of BRD4 from p53 target genes, and hence potentiate MDM2i-induced p53 activation. These results indicate that wild-type TP53 and a transcriptional repressor function of BRD4 together represent a potential broad-spectrum synthetic therapeutic vulnerability for AML.
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