Abstract
The IKZF1 gene, which encodes the Ikaros transcription factor, is frequently deleted or mutated in patients with B-cell precursor acute lymphoblastic leukemias that express oncogenes, like BCR-ABL, which activate the JAK-STAT5 pathway. Ikaros functionally antagonizes the transcriptional programs downstream of IL-7/STAT5 during B cell development, as well as STAT5 activity in leukemic cells. However, the mechanisms by which Ikaros interferes with STAT5 function is unknown. We studied the genomic distribution of Ikaros and STAT5 on chromatin in a murine pre-B cell line, and found that both proteins colocalize on >60% of STAT5 target regions. Strikingly, Ikaros activity leads to widespread loss of STAT5 binding at most of its genomic targets within two hours of Ikaros induction, suggesting a direct mechanism. Ikaros did not alter the level of total or phosphorylated STAT5 proteins, nor did it associate with STAT5. Using sequences from the Cish, Socs2 and Bcl6 genes that Ikaros and STAT5 target, we show that both proteins bind overlapping sequences at GGAA motifs. Our results demonstrate that Ikaros antagonizes STAT5 DNA binding, in part by competing for common target sequences. Our study has implications for understanding the functions of Ikaros and STAT5 in B cell development and transformation.
Highlights
Interleukin 7 (IL-7) is crucial for early B cell differentiation in the bone marrow
We provide a molecular explanation for why Ikaros blocks IL-7/STAT5 signaling in pre-B cells during B cell differentiation, and why Ikaros suppresses the tumorigenic effects of constitutively active STAT5 mutations in B-cell precursor acute lymphoblastic leukemias (BCP-ALL) [3, 13]
We show that Ikaros inhibits DNA binding by STAT5 at the great majority of STAT5 target genes, using genome-wide analyses
Summary
Interleukin 7 (IL-7) is crucial for early B cell differentiation in the bone marrow. It is required for pro-B cell survival and the proliferative burst that follows pre-BCR signaling in large pre-B cells. While pro-B cells are tightly associated with IL7 producing stromal cells, pre-BCR signaling leads to changes in integrin signaling pathways and cell motility, allowing the cells to move away from IL-7 rich niches. It remains unclear, if other mechanisms are deeply involved
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