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RNAi screen identifies Brd4 as a therapeutic target in acute myeloid leukaemia

表观遗传学 染色质 BRD4 生物 RNA干扰 癌症研究 表观遗传学 组蛋白 小发夹RNA 表观遗传疗法 染色质重塑 计算生物学 溴尿嘧啶 核糖核酸 DNA甲基化 遗传学 基因表达 基因敲除 基因
作者
Johannes Zuber,Junwei Shi,Eric Wang,Amy Rappaport,Harald Herrmann,Edward Allan R. Sison,Daniel Magoon,Jun Qi,Katharina Blatt,Mark Wunderlich,Meredith J. Taylor,Christopher Johns,Agustin Chicas,James C. Mulloy,Scott C. Kogan,Patrick A. Brown,Peter Valent,James E. Bradner,Scott W. Lowe,Christopher R. Vakoc
出处
期刊:Nature [Nature Portfolio]
卷期号:478 (7370): 524-528 被引量:1867
标识
DOI:10.1038/nature10334
摘要

Epigenetic pathways can regulate gene expression by controlling and interpreting chromatin modifications. Cancer cells are characterized by altered epigenetic landscapes, and commonly exploit the chromatin regulatory machinery to enforce oncogenic gene expression programs. Although chromatin alterations are, in principle, reversible and often amenable to drug intervention, the promise of targeting such pathways therapeutically has been limited by an incomplete understanding of cancer-specific dependencies on epigenetic regulators. Here we describe a non-biased approach to probe epigenetic vulnerabilities in acute myeloid leukaemia (AML), an aggressive haematopoietic malignancy that is often associated with aberrant chromatin states. By screening a custom library of small hairpin RNAs (shRNAs) targeting known chromatin regulators in a genetically defined AML mouse model, we identify the protein bromodomain-containing 4 (Brd4) as being critically required for disease maintenance. Suppression of Brd4 using shRNAs or the small-molecule inhibitor JQ1 led to robust antileukaemic effects in vitro and in vivo, accompanied by terminal myeloid differentiation and elimination of leukaemia stem cells. Similar sensitivities were observed in a variety of human AML cell lines and primary patient samples, revealing that JQ1 has broad activity in diverse AML subtypes. The effects of Brd4 suppression are, at least in part, due to its role in sustaining Myc expression to promote aberrant self-renewal, which implicates JQ1 as a pharmacological means to suppress MYC in cancer. Our results establish small-molecule inhibition of Brd4 as a promising therapeutic strategy in AML and, potentially, other cancers, and highlight the utility of RNA interference (RNAi) screening for revealing epigenetic vulnerabilities that can be exploited for direct pharmacological intervention.
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