染色体易位
生物
转录因子
表型
增强子
癌症研究
髓系白血病
异位表达
髓样
运行x1
祖细胞
融合基因
白血病
遗传学
基因
干细胞
祖细胞
免疫分型
免疫学
GATA1公司
关贸总协定
移植
基因座(遗传学)
关贸总协定
造血
清脆的
谱系(遗传)
医学
细胞生物学
CD33
分子生物学
细胞分化
抄写(语言学)
染色体异常
作者
Kaito Mimura,Akira Kaino,Yotaro Ochi,Yu-Hsuan Chang,Masafumi Seki,June Takeda,S. Katayama,Hidetaka Niizuma,Yoji Sasahara,Yoko Mizoguchi,Maiko Shimomura,Ryosuke Koyamada,Rintaro Ono,Daisuke Hasegawa,Kazuki Mitani,Hirohito Kubota,Satoshi Yoshihara,Nobuhiro Hiramoto,Akihito Otsuki,Yasunobu Okamura
出处
期刊:Blood
[Elsevier BV]
日期:2026-03-06
标识
DOI:10.1182/blood.2025031466
摘要
The molecular classification of T-cell acute lymphoblastic leukemia (T-ALL) remains incomplete, limiting risk stratification and the development of targeted therapies. Enhancer hijacking is a critical oncogenic mechanism that deregulates proto-oncogenes by repositioning cis-regulatory regions via structural variants. Here, we performed an integrated analysis of pediatric and adult T-ALL and mixed phenotype acute leukemias (MPALs), using whole-genome and whole-transcriptome sequencing. This analysis identified a group of 14 patients with predominantly T-lineage neoplasms driven by a t(14;16)(q32;q24) translocation, harboring universal GATA3 mutations and CDKN2A/B deletions. Mechanistically, this translocation repositions the ThymoD locus downstream of BCL11B, causing monoallelic, ectopic overexpression of FENDRR and mesenchymal transcription factor genes FOXF1 and FOXC2, activating epithelial-mesenchymal transition (EMT) transcription signatures. Immunophenotypic and single-cell RNA-seq analyses revealed marked lineage ambiguity with myeloid and B-cell differentiation potentials specific to this subtype. Furthermore, functional analyses in CD34-positive cord blood cells demonstrated that FOXF1 overexpression promotes myeloid differentiation while suppressing T-cell differentiation, serving as a key factor for lineage specification. Clinically, this subtype was detected in 0.15-4.0% of T-ALL/MPAL cases depending on the cohort, showing a median age of 15 years and enrichment in adolescents and young adults (AYA). Importantly, patients with t(14;16)(q32;q24) have an extremely poor prognosis, showing a trend toward worse outcomes than high-risk groups such as KMT2A-rearranged early T-cell progenitor (ETP)-like, SPI1-rearranged, and LMO2 γδ-like T-ALLs. The unique molecular landscape and poor prognosis of patients with the t(14;16)(q32;q24) translocation underscore the need for the development of novel subtype-specific therapeutic approaches.
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