WDR5 和 HDM2 抑制剂在 SMARCB1 缺失的癌细胞中的协同作用。

NAR Cancer Pub Date : 2022-03-03 eCollection Date: 2022-03-01 DOI:10.1093/narcan/zcac007
Andrea C Florian, Chase M Woodley, Jing Wang, Brian C Grieb, Macey J Slota, Kiana Guerrazzi, Chih-Yuan Hsu, Brittany K Matlock, David K Flaherty, Shelly L Lorey, Stephen W Fesik, Gregory C Howard, Qi Liu, April M Weissmiller, William P Tansey
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引用次数: 0

摘要

横纹肌瘤(RT)是一种罕见的致命小儿癌症,其发病原因是 SMARCB1 基因缺失,而 SMARCB1 编码 SWI/SNF 染色质重塑器的 SNF5 成分。SMARCB1的缺失与一系列复杂的表型变化有关,包括易受蛋白质合成抑制剂和p53泛素连接酶HDM2的影响。最近,我们发现了 WDR5 的 "WIN "位点的小分子抑制剂,这种抑制剂在 MLL 重组的白血病细胞中会降低一系列与蛋白质合成相关的基因的表达,诱导翻译阻滞,并导致 p53 依赖性增殖抑制。在这里,我们描述了 WIN 位点抑制剂如何在 RT 细胞中发挥作用。与在白血病细胞中一样,WIN 位点抑制剂在 RT 细胞中也会导致 WDR5 从染色质中全面移位,从而导致蛋白质合成基因表达减少。但与白血病细胞不同的是,RT 细胞对 WIN 位点阻断的生长反应与 p53 无关。利用这一观察结果,我们证明了 WIN 位点抑制剂与 HDM2 拮抗剂协同诱导 p53 并阻止 RT 细胞体外增殖。这些数据揭示了 WIN 位点抑制剂与 p53 无关的作用,并预测未来治疗 RT 的策略可能基于 WDR5/HDM2 双重抑制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Synergistic action of WDR5 and HDM2 inhibitors in SMARCB1-deficient cancer cells.

Synergistic action of WDR5 and HDM2 inhibitors in SMARCB1-deficient cancer cells.

Synergistic action of WDR5 and HDM2 inhibitors in SMARCB1-deficient cancer cells.

Synergistic action of WDR5 and HDM2 inhibitors in SMARCB1-deficient cancer cells.

Rhabdoid tumors (RT) are rare and deadly pediatric cancers driven by loss of SMARCB1, which encodes the SNF5 component of the SWI/SNF chromatin remodeler. Loss of SMARCB1 is associated with a complex set of phenotypic changes including vulnerability to inhibitors of protein synthesis and of the p53 ubiquitin-ligase HDM2. Recently, we discovered small molecule inhibitors of the 'WIN' site of WDR5, which in MLL-rearranged leukemia cells decrease the expression of a set of genes linked to protein synthesis, inducing a translational choke and causing p53-dependent inhibition of proliferation. Here, we characterize how WIN site inhibitors act in RT cells. As in leukemia cells, WIN site inhibition in RT cells causes the comprehensive displacement of WDR5 from chromatin, resulting in a decrease in protein synthesis gene expression. Unlike leukemia cells, however, the growth response of RT cells to WIN site blockade is independent of p53. Exploiting this observation, we demonstrate that WIN site inhibitor synergizes with an HDM2 antagonist to induce p53 and block RT cell proliferation in vitro. These data reveal a p53-independent action of WIN site inhibitors and forecast that future strategies to treat RT could be based on dual WDR5/HDM2 inhibition.

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