B cell progenitor acute lymphoblastic leukemia (BCP-ALL) is the most common childhood malignancy. It is initiated by multiple genetic alterations, causing a maturation arrest and accumulation of abnormal progenitor B cells. Current treatment protocols with chemotherapy have led to favorable outcomes, but are associated with significant toxicity and risk of side effects, highlighting the necessity for highly effective, less toxic, targeted drugs that also show efficacy in children experiencing relapse.
We have used multimodal single-cell sequencing to delineate the transcriptional, epigenetic, and immunophenotypic characteristics of 23 childhood BCP-ALLs, including the BCR::ABL1-positive, ETV6::RUNX1-positive, high hyperdiploid, and recently discovered DUX4-rearranged subtypes. In total, 188,546 single cells derived from 23 BCP-ALLs and 9 normal bone marrow samples were profiled using the 10X Genomics platform. Cellranger multi and atac count (10X Genomics) were used to generate read count matrices. Further analysis was performed using Seurat and Signac. The in-house developed program SingleCellProjections was used to create a normal bone marrow reference graph onto which the BCP-ALL data was projected.
Projection of the ALL cells along the normal B cell differentiation axis, revealed a diversity in the maturation block between the different BCP-ALL subtypes. Whereas the BCR::ABL1-, ETV6::RUNX1-positive and high hyperdiploidy cells mainly showed similarities to normal pro-B cells, the DUX4-rearranged ALL cells also displayed a transcriptional signature resembling mature B cells. In addition, the blast population in DUX4-rearranged ALLs showed multilineage priming toward non-hematopoietic cells, myeloid and T cell lineages, but also an activation of PI3K/AKT signaling that sensitized the cells to PI3K inhibition. Finally, we show that chimeric antigen receptor T cell therapy targeting the upregulated myeloid receptor CD371 (CLL-1), effectively eliminates DUX4-rearranged ALL cells. Our results provide a detailed characterization of BCP-ALL at the single-cell level and reveal therapeutic vulnerabilities in the DUX4-rearranged subtype with important implications for the understanding of ALL biology and new therapeutic strategies.
Disclosures
No relevant conflicts of interest to declare.