Analysis of Ikaros tumor suppressor function in BCR-ABL1+pre-B ALL reveals conserved target genes and biological pathways

Abstract Inactivation of the transcriptional factor Ikaros (IKZF1) correlates with poor prognosis in progenitor B-cell acute lymphoblastic leukemia (pre-B ALL), and is a hallmark of the BCR-ABL1+ subgroup of pre-B ALL. Ikaros is a critical regulator of hematopoietic development and required for B-cell development, however the mechanisms by which Ikaros functions as a tumor suppressor in pre-B ALL remain poorly understood. We analyzed recently developed mouse models of BCR-ABL1+ pre-B ALL containing targeted deletions of Ikaros DNA-binding zinc finger domains together with a new model of inducible expression of WT Ikaros in IKZF1-mutant human BCR-ABL1+ pre-B ALL. We found that both the mouse and human Ikaros-mutated leukemic cells displayed a less mature cell surface phenotype and failed to downregulate the developmentally restricted cell surface receptors c-kit and CD34, respectively. In addition, Ctnnd1, a gene that is also expressed in earlier hematopoietic progenitor cells and normally downregulated as cells differentiate down the B-cell lineage, was found to be a conserved Ikaros target gene, with increased expression in Ikaros-mutated leukemic cells. RNA sequencing defined the Ikaros target genes in both mouse and human Ikaros-mutated pre-B ALL cells and revealed additional conserved target genes and biological functions. Loss of Ikaros tumor suppression was associated with deregulated adhesion pathways and stem-cell signatures. Furthermore, our results presented herein suggest that Ikaros mediates tumor suppressor function, at least in part, by enforcing proper developmental-stage specific expression of multiple genes involved in a network of cadherin-dependent, Rho-regulated Wnt/b-catenin pathways.