癌症的体细胞进化
生物
免疫分型
克隆选择
髓系白血病
遗传学
髓样
白血病
谱系(遗传)
克隆(Java方法)
疾病
突变
基因型
免疫学
DNA测序
血液肿瘤
表型
微小残留病
作者
Morgan Drucker,Darren Lee,M. B. Bowman,Xuan Zhang,Bailee Kain,Deedra Nicolet,Roopsha Bandopadhyay,Varsha Singh,Zhe Wang,Richard M. Stone,Caner Saygin,Krzysztof Mrózek,Andrew J. Carroll,Daniel T Starczynowski,Ross L Levine,John C Byrd,Nathan Salomonis,Sarah Skuli,H. Leighton Grimes,Ann-Kathrin Eisfeld
出处
期刊:Blood
[Elsevier BV]
日期:2026-04-08
被引量:1
标识
DOI:10.1182/blood.2025030772
摘要
Acute myeloid leukemia (AML) is a multi-clonal disease, existing as a milieu of clones with unique but related genotypes as initiating clones acquire subsequent mutations. However, bulk sequencing cannot fully capture AML clonal architecture or the clonal evolution that occurs as patients undergo therapy. To interrogate clonal evolution, we performed simultaneous single-cell molecular profiling and immunophenotyping on 43 samples from 32 NPM1-mutated AML patients at different timepoints in disease progression. Here we show that diagnosis and relapse AML samples display similar clonal architecture patterns, but signaling mutations drive increased clonal complexity, specifically at relapse that correlates with overall survival. We uncovered unique genotype-immunophenotype relationships regardless of disease state, suggesting leukemic lineage trajectories can be hard-wired by the mutations present. Analysis of longitudinal samples from patients on front-line AML therapy identified dynamic clonal and immunophenotypic changes consistent with the genotype-immunophenotype relationships we identified.
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