Molecular Oncology (Mar 2024)
An arms‐race against resistance: leukemic stem cells and lineage plasticity
Abstract
Acute myeloid leukemia (AML) therapy is undergoing rapid development, but primary and acquired resistance to therapy complicates the prospect of a durable cure. Recent functional and single‐cell multi‐omics approaches have greatly expanded our knowledge of the diversity of lineage trajectories in AML settings. AML cells range from undifferentiated stem‐like cells to more differentiated myeloid or megakaryocyte/erythroid cells. Current clinically relevant drugs predominantly target the myeloid progenitor lineage, while monocyte‐ or stem cell‐like states can evade current AML treatment and may be targeted in the future with lineage‐specific inhibitors. The extent of aberrant lineage plasticity upon therapeutic pressure in AML cells in conjunction with hijacking of normal differentiation pathways is still a poorly understood topic. Insights into the mechanisms of lineage plasticity of AML stem cells could identify both therapy‐specific and cross‐drug resistance pathways and reveal novel strategies to overcome them.
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