The recombinome of IKZF1 deletions in B-ALL

Abstract

Abstract IKZF1 deletions are associated with an increased risk of relapse in B-cell precursor acute lymphoblastic leukemia (B-ALL), and their accurate detection has great clinical impact. Here, we included four international cohorts of pediatric and adult patients with B-ALL, and reviewed literature to illustrate the recombination map of IKZF1 deletions, with a focus at non-recurrent deletions. We provide a substantial basis for the improvement of diagnostic methods based on MLPA and multiplex PCR for the identification of IKZF1 deletions, and also demonstrate that rare IKZF1 deletions increase the incidence of relapse in these patients. Of note, non-recurrent deletions comprised a wide range of alterations, but the majority were Δ1 and Δ1–3. They were often associated with reciprocal IKZF1 fusions. So far, a total of 23 IKZF1 gene fusions were identified in B-ALL. We also verified the occurrence of the heptamer sequence (E-value: 9.9 x 10− 9) and an enrichment of GC nucleotides (71% versus 56%; P value = 4.9 x 10− 3) exclusively within breakpoint clusters, suggesting that RAG recombination and TdT activity may promote the majority of IKZF1 deletions, although rare types of alterations may be associated with other molecular mechanism of leukemogenesis, such as microhomology-mediated end joining.