染色质
生物
白血病
表观遗传学
癌症研究
功能分析
干细胞
DNA甲基化
计算生物学
谱系(遗传)
儿童白血病
遗传学
细胞生物学
DNA
表观遗传学
基因表达调控
融合基因
后生
转录调控
细胞分化
作者
Koutarou Nishimura,Tomoya Isobe,Tsukasa Shigehiro,Masaki Nomura,Weijia Zang,Muran Xiao,Wenjuan Liao,Yui Koike,Akira Nishimura,Aiko Sato‐Otsubo,Hiromi Yamazaki,Hiromi Ito,Shinri Okada,Naomi Matsumoto,Wataru Saika,Yifan Zhang,Yumi Aoyama,Chihiro Hasegawa,Takaya Yamasaki,Yasuo Kubota
出处
期刊:Blood
[Elsevier BV]
日期:2025-12-29
标识
DOI:10.1182/blood.2024026928
摘要
NUTM1-rearrangement (NUTM1-r) defines a significant subset of B-cell acute lymphoblastic leukemia (B-ALL), particularly in infants lacking KMT2A-rearrangements (KMT2A-r), yet its underlying molecular characteristics remain poorly understood. Here, we establish that NUTM1-r leukemia is a discrete entity characterized by a unique transcriptional and epigenetic landscape, notably featuring global DNA hypomethylation, irrespective of the 5' fusion partner. Functional interrogation of NUTM1 fusions reveals a dual oncogenic role: they drive commitment towards the B-lymphoid lineage while concurrently conferring potent leukemic stem cell properties. Strikingly, expression of a representative fusion, BRD9-NUTM1, is sufficient to induce serially-transplantable prepro-B-like leukemia in vivo, faithfully recapitulating the key molecular and immunophenotypic features of human NUTM1-r B-ALL. Mechanistically, NUTM1 fusions establish an aberrant chromatin state, marked by global enhancement of H3K27 acetylation and the creation of distinctive open chromatin regions that co-opt both B-lineage and stemness-related transcriptional programs, including those involving NF-κB and posterior HoxA genes. In stark contrast to resistant KMT2A-r leukemias, NUTM1-r leukemic cells exhibit a profound sensitivity to chemotherapy. This vulnerability is mechanistically linked to the leukemia's dependence on active transcription. Our findings delineate the unique molecular profile of NUTM1-r leukemias, revealing specific vulnerabilities that rationalize their favorable clinical outcomes and suggest opportunities for modified therapeutic strategies.
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