复发性突变，包括NPM1c，在急性髓系白血病中激活了一个依赖于BRD4的核心转录程序。

Recurrent mutations, including NPM1c, activate a BRD4-dependent core transcriptional program in acute myeloid leukemia.

作者信息

Dawson M A, Gudgin E J, Horton S J, Giotopoulos G, Meduri E, Robson S, Cannizzaro E, Osaki H, Wiese M, Putwain S, Fong C Y, Grove C, Craig J, Dittmann A, Lugo D, Jeffrey P, Drewes G, Lee K, Bullinger L, Prinjha R K, Kouzarides T, Vassiliou G S, Huntly B J P

机构信息

1] Department of Haematology, Cambridge Institute for Medical Research and Addenbrookes Hospital, University of Cambridge, Cambridge, UK [2] Wellcome Trust-Medical Research Council Cambridge Stem Cell Institute, Cambridge, UK [3] Gurdon Institute and Department of Pathology, University of Cambridge, Cambridge UK.

Department of Haematology, Cambridge Institute for Medical Research and Addenbrookes Hospital, University of Cambridge, Cambridge, UK.

出版信息

Leukemia. 2014 Feb;28(2):311-20. doi: 10.1038/leu.2013.338. Epub 2013 Nov 13.

DOI:10.1038/leu.2013.338

PMID:24220271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3918873/

Abstract

Recent evidence suggests that inhibition of bromodomain and extra-terminal (BET) epigenetic readers may have clinical utility against acute myeloid leukemia (AML). Here we validate this hypothesis, demonstrating the efficacy of the BET inhibitor I-BET151 across a variety of AML subtypes driven by disparate mutations. We demonstrate that a common 'core' transcriptional program, which is HOX gene independent, is downregulated in AML and underlies sensitivity to I-BET treatment. This program is enriched for genes that contain 'super-enhancers', recently described regulatory elements postulated to control key oncogenic driver genes. Moreover, our program can independently classify AML patients into distinct cytogenetic and molecular subgroups, suggesting that it contains biomarkers of sensitivity and response. We focus AML with mutations of the Nucleophosmin gene (NPM1) and show evidence to suggest that wild-type NPM1 has an inhibitory influence on BRD4 that is relieved upon NPM1c mutation and cytosplasmic dislocation. This leads to the upregulation of the core transcriptional program facilitating leukemia development. This program is abrogated by I-BET therapy and by nuclear restoration of NPM1. Finally, we demonstrate the efficacy of I-BET151 in a unique murine model and in primary patient samples of NPM1c AML. Taken together, our data support the use of BET inhibitors in clinical trials in AML.

摘要

近期证据表明，抑制溴结构域和额外末端（BET）表观遗传阅读器可能对急性髓系白血病（AML）具有临床应用价值。在此，我们验证这一假说，证明BET抑制剂I-BET151对由不同突变驱动的多种AML亚型有效。我们证明，一个不依赖HOX基因的常见“核心”转录程序在AML中被下调，并且是对I-BET治疗敏感的基础。该程序富含包含“超级增强子”的基因，“超级增强子”是最近描述的假定控制关键致癌驱动基因的调控元件。此外，我们的程序能够独立地将AML患者分为不同的细胞遗传学和分子亚组，这表明它包含敏感性和反应的生物标志物。我们聚焦于核仁磷酸蛋白基因（NPM1）突变的AML，并显示有证据表明野生型NPM1对BRD4有抑制作用，而NPM1c突变和细胞质错位后这种抑制作用会解除。这导致核心转录程序上调，促进白血病发展。该程序可被I-BET治疗和NPM1的核恢复所消除。最后，我们在独特的小鼠模型和NPM1c AML的原发性患者样本中证明了I-BET151的疗效。综上所述，我们的数据支持在AML临床试验中使用BET抑制剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/11aa/3918873/f6ebcc24e2fd/leu2013338f1.jpg

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复发性突变，包括NPM1c，在急性髓系白血病中激活了一个依赖于BRD4的核心转录程序。

Recurrent mutations, including NPM1c, activate a BRD4-dependent core transcriptional program in acute myeloid leukemia.

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