Wnt信号通路
癌症研究
STAT1
分化疗法
转录因子
髓样
生物
全景望远镜
TCF7L2型
细胞分化
维甲酸
CD33
细胞生物学
急性早幼粒细胞白血病
信号转导
组蛋白脱乙酰基酶
组蛋白
细胞培养
基因
遗传学
干细胞
基因型
单核苷酸多态性
川地34
作者
Amir Hosseini,Abhinav Dhall,Nemo Ikonen,Natalia Sikora,Sylvain Nguyen,Yuqi Shen,Margarida D. Amaral,Alan Jiao,Fredrik K. Wallner,Philipp Sergeev,Y. Lim,Yuanqin Yang,Binje Vick,Kimihito C. Kawabata,Ari Melnick,Paresh Vyas,Bing Ren,Irmela Jeremias,Bethan Psaila,Caroline A. Heckman
出处
期刊:Nature
[Nature Portfolio]
日期:2025-04-16
卷期号:642 (8067): 508-518
被引量:10
标识
DOI:10.1038/s41586-025-08915-1
摘要
Impaired differentiation is a hallmark of myeloid malignancies1,2. Therapies that enable cells to circumvent the differentiation block, such as all-trans retinoic acid (ATRA) and arsenic trioxide (ATO), are by and large curative in acute promyelocytic leukaemia3, but whether 'differentiation therapy' is a generalizable therapeutic approach for acute myeloid leukaemia (AML) and beyond remains incompletely understood. Here we demonstrate that simultaneous inhibition of the histone demethylase LSD1 (LSD1i) and the WNT pathway antagonist GSK3 kinase4 (GSK3i) robustly promotes therapeutic differentiation of established AML cell lines and primary human AML cells, as well as reducing tumour burden and significantly extending survival in a patient-derived xenograft mouse model. Mechanistically, this combination promotes differentiation by activating genes in the type I interferon pathway via inducing expression of transcription factors such as IRF7 (LSD1i) and the co-activator β-catenin (GSK3i), and their selective co-occupancy at targets such as STAT1, which is necessary for combination-induced differentiation. Combination treatment also suppresses the canonical, pro-oncogenic WNT pathway and cell cycle genes. Analysis of datasets from patients with AML suggests a correlation between the combination-induced transcription signature and better prognosis, highlighting clinical potential of this strategy. Collectively, this combination strategy rewires transcriptional programs to suppress stemness and to promote differentiation, which may have important therapeutic implications for AML and WNT-driven cancers beyond AML.
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