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Single-cell multiomics analysis reveals dynamic clonal evolution and targetable phenotypes in acute myeloid leukemia with complex karyotypeopen access

Authors
Leppä, Aino-MaijaGrimes, KarenJeong, HyobinHuang, Frank Y.Andrades, AlvaroWaclawiczek, AlexanderBoch, TobiasJauch, AnnaRenders, SimonStelmach, PatrickMüller-Tidow, CarstenKarpova, DarjaSohn, MarkusGrünschläger, FlorianHasenfeld, PatrickBenito Garagorri, EvaThiel, VeraDolnik, AnnaRodriguez-Martin, BernardoBullinger, LarsMrózek, KrzysztofEisfeld, Ann-KathrinKrämer, AlwinSanders, Ashley D.Korbel, Jan O.Trumpp, Andreas
Issue Date
Dec-2024
Publisher
NATURE PORTFOLIO
Citation
NATURE GENETICS, v.56, no.12, pp 2790 - 2803
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
NATURE GENETICS
Volume
56
Number
12
Start Page
2790
End Page
2803
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212417
DOI
10.1038/s41588-024-01999-x
ISSN
1061-4036
1546-1718
Abstract
Chromosomal instability is a major driver of intratumoral heterogeneity (ITH), promoting tumor progression. In the present study, we combined structural variant discovery and nucleosome occupancy profiling with transcriptomic and immunophenotypic changes in single cells to study ITH in complex karyotype acute myeloid leukemia (CK-AML). We observed complex structural variant landscapes within individual cells of patients with CK-AML characterized by linear and circular breakage–fusion–bridge cycles and chromothripsis. We identified three clonal evolution patterns in diagnosis or salvage CK-AML (monoclonal, linear and branched polyclonal), with 75% harboring multiple subclones that frequently displayed ongoing karyotype remodeling. Using patient-derived xenografts, we demonstrated varied clonal evolution of leukemic stem cells (LSCs) and further dissected subclone-specific drug–response profiles to identify LSC-targeting therapies, including BCL-xL inhibition. In paired longitudinal patient samples, we further revealed genetic evolution and cell-type plasticity as mechanisms of disease progression. By dissecting dynamic genomic, phenotypic and functional complexity of CK-AML, our findings offer clinically relevant avenues for characterizing and targeting disease-driving LSCs.
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