PU.1 和 MYC 转录调控网络定义了急性髓系白血病中 KIT 和 LSD1 抑制的协同药物反应。
PU.1 and MYC transcriptional network defines synergistic drug responses to KIT and LSD1 inhibition in acute myeloid leukemia.
机构信息
Knight Cancer Institute, Oregon Health & Science University, Portland, OR, 97239, USA.
Division of Oncological Sciences, Oregon Health & Science University, Portland, OR, 97239, USA.
出版信息
Leukemia. 2022 Jul;36(7):1781-1793. doi: 10.1038/s41375-022-01594-1. Epub 2022 May 19.
Abstract
Responses to kinase-inhibitor therapy in AML are frequently short-lived due to the rapid development of resistance, limiting the clinical efficacy. Combination therapy may improve initial therapeutic responses by targeting pathways used by leukemia cells to escape monotherapy. Here we report that combined inhibition of KIT and lysine-specific demethylase 1 (LSD1) produces synergistic cell death in KIT-mutant AML cell lines and primary patient samples. This drug combination evicts both MYC and PU.1 from chromatin driving cell cycle exit. Using a live cell biosensor for AKT activity, we identify early adaptive changes in kinase signaling following KIT inhibition that are reversed with the addition of LSD1 inhibitor via modulation of the GSK3a/b axis. Multi-omic analyses, including scRNA-seq, ATAC-seq and CUT&Tag, confirm these mechanisms in primary KIT-mutant AML. Collectively, this work provides rational for a clinical trial to assess the efficacy of KIT and LSD1 inhibition in patients with KIT-mutant AML.
摘要
由于耐药性的迅速发展,AML 对激酶抑制剂治疗的反应通常是短暂的,从而限制了临床疗效。联合治疗可以通过靶向白血病细胞逃避单药治疗的途径来提高初始治疗反应。在这里,我们报告说,联合抑制 KIT 和赖氨酸特异性去甲基酶 1(LSD1)可在 KIT 突变型 AML 细胞系和原发性患者样本中产生协同细胞死亡。这种药物组合将 MYC 和 PU.1 从染色质中逐出,从而驱动细胞周期退出。使用 AKT 活性的活细胞生物传感器,我们在 KIT 抑制后识别出激酶信号的早期适应性变化,通过调节 GSK3a/b 轴,用 LSD1 抑制剂添加可逆转这些变化。包括 scRNA-seq、ATAC-seq 和 CUT&Tag 在内的多组学分析在原发性 KIT 突变型 AML 中证实了这些机制。总之,这项工作为评估 KIT 和 LSD1 抑制在 KIT 突变型 AML 患者中的疗效的临床试验提供了依据。
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