CRISPR/Cas9-Generated Models Uncover Therapeutic Vulnerabilities of Del(11q) Chronic Lymphocytic Leukemia Cells to Dual BCR and PARP Inhibition

Chromosome 11q22.3 deletion (del(11q)) is one of the most common cytogenetic alterations in CLL and usually involves both ATM and BIRC3 genes. Concomitant mutations in ATM and/or BIRC3 in the remaining allele have been associated with poor survival. Despite the encouraging efficacy of novel agents targeting BCR and BCL2 pathways, del(11q) patients still have an inferior outcome and the development of resistance to these drugs has been increasingly reported. We therefore investigated the functional impact of del(11q) together with loss-of-function mutations in ATM and/or BIRC3 and whether CLLs harboring these alterations could benefit from novel combinatorial therapies. To address these questions, we used the CRISPR/Cas9 system to generate an isogenic CLL cell line to model del(11q) derived from HG3 cells by introducing two guide RNAs targeting the 11q22.1 and 11q23.3 regions. The presence of a monoallelic deletion (size ~17 Mb) was confirmed in 100% of the cells by FISH. Truncating mutations in ATM and/or BIRC3 were introduced in the remaining allele, generating HG3 del(11q) ATMKO, del(11q) BIRC3KO and del(11q) ATMKOBIRC3KO (three clones per condition). In addition, single ATMKO and BIRC3KO mutations, or the combination of both, were introduced into both HG3 and MEC1 CLL-derived cells (three clones per condition). Functional in vitro studies revealed that del(11q) BIRC3KO cells had increased growth rates compared to del(11q) BIRC3WT clones (P