NF1 缺陷型卵巢癌中 BET 蛋白介导的激酶组重编程导致对 MEK 抑制的内在抗性。

Intrinsic Resistance to MEK Inhibition through BET Protein-Mediated Kinome Reprogramming in NF1-Deficient Ovarian Cancer.

机构信息

Cancer Biology Program, Fox Chase Cancer Center, Philadelphia, Pennsylvania.

出版信息

Mol Cancer Res. 2019 Aug;17(8):1721-1734. doi: 10.1158/1541-7786.MCR-18-1332. Epub 2019 May 1.

DOI:10.1158/1541-7786.MCR-18-1332

PMID:31043489

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6679760/

Abstract

Mutation or deletion of Neurofibromin 1 (), an inhibitor of RAS signaling, frequently occurs in epithelial ovarian cancer (EOC), supporting therapies that target downstream RAS effectors, such as the RAF-MEK-ERK pathway. However, no comprehensive studies have been carried out testing the efficacy of MEK inhibition in NF1-deficient EOC. Here, we performed a detailed characterization of MEK inhibition in NF1-deficient EOC cell lines using kinome profiling and RNA sequencing. Our studies showed MEK inhibitors (MEKi) were ineffective at providing durable growth inhibition in NF1-deficient cells due to kinome reprogramming. MEKi-mediated destabilization of FOSL1 resulted in induced expression of receptor tyrosine kinases (RTK) and their downstream RAF and PI3K signaling, thus overcoming MEKi therapy. MEKi synthetic enhancement screens identified BRD2 and BRD4 as integral mediators of the MEKi-induced RTK signatures. Inhibition of bromo and extra terminal (BET) proteins using BET bromodomain inhibitors blocked MEKi-induced RTK reprogramming, indicating that BRD2 and BRD4 represent promising therapeutic targets in combination with MEKi to block resistance due to kinome reprogramming in NF1-deficient EOC. IMPLICATIONS: Our findings suggest MEK inhibitors will likely not be effective as single-agent therapies in NF1-deficient EOC due to kinome reprogramming. Cotargeting BET proteins in combination with MEKis to block reprogramming at the transcriptional level may provide an epigenetic strategy to overcome MEKi resistance in NF1-deficient EOC.

摘要

神经纤维瘤蛋白 1 (Neurofibromin 1 ()) 的突变或缺失，是一种 RAS 信号的抑制剂，在卵巢上皮癌 (EOC) 中经常发生，支持针对下游 RAS 效应物的治疗，如 RAF-MEK-ERK 通路。然而，尚无综合研究测试 MEK 抑制在 NF1 缺陷型 EOC 中的疗效。在这里，我们使用激酶组谱和 RNA 测序对 NF1 缺陷型 EOC 细胞系中的 MEK 抑制进行了详细的表征。我们的研究表明，由于激酶组重编程，MEK 抑制剂 (MEKi) 在 NF1 缺陷型细胞中不能提供持久的生长抑制作用。MEKi 介导的 FOSL1 不稳定导致受体酪氨酸激酶 (RTK) 及其下游 RAF 和 PI3K 信号的诱导表达，从而克服了 MEKi 治疗。MEKi 合成增强筛选确定 BRD2 和 BRD4 是 MEKi 诱导的 RTK 特征的完整介质。使用溴结构域和末端 (BET) 蛋白抑制剂抑制溴结构域蛋白可阻断 MEKi 诱导的 RTK 重编程，表明 BRD2 和 BRD4 是与 MEKi 联合治疗的有前途的治疗靶点，可阻断由于 NF1 缺陷型 EOC 中的激酶组重编程而产生的耐药性。意义：我们的发现表明，由于激酶组重编程，MEK 抑制剂不太可能作为单一药物治疗 NF1 缺陷型 EOC 有效。通过靶向 BET 蛋白与 MEKi 联合阻断转录水平的重编程可能提供一种表观遗传策略，以克服 NF1 缺陷型 EOC 中 MEKi 耐药性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f49c/6679760/51bafb7b2b7d/nihms-1528667-f0001.jpg

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