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A hotspot mutation in transcription factor IKZF3 drives B cell neoplasia via transcriptional dysregulation.

Cancer cell (2021-03-11)
Gregory Lazarian, Shanye Yin, Elisa Ten Hacken, Tomasz Sewastianik, Mohamed Uduman, Alba Font-Tello, Satyen H Gohil, Shuqiang Li, Ekaterina Kim, Heather Joyal, Leah Billington, Elizabeth Witten, Mei Zheng, Teddy Huang, Mariano Severgnini, Valerie Lefebvre, Laura Z Rassenti, Catherine Gutierrez, Katia Georgopoulos, Christopher J Ott, Lili Wang, Thomas J Kipps, Jan A Burger, Kenneth J Livak, Donna S Neuberg, Fanny Baran-Marszak, Florence Cymbalista, Ruben D Carrasco, Catherine J Wu
ABSTRAKT

Hotspot mutation of IKZF3 (IKZF3-L162R) has been identified as a putative driver of chronic lymphocytic leukemia (CLL), but its function remains unknown. Here, we demonstrate its driving role in CLL through a B cell-restricted conditional knockin mouse model. Mutant Ikzf3 alters DNA binding specificity and target selection, leading to hyperactivation of B cell receptor (BCR) signaling, overexpression of nuclear factor κB (NF-κB) target genes, and development of CLL-like disease in elderly mice with a penetrance of ~40%. Human CLL carrying either IKZF3 mutation or high IKZF3 expression was associated with overexpression of BCR/NF-κB pathway members and reduced sensitivity to BCR signaling inhibition by ibrutinib. Our results thus highlight IKZF3 oncogenic function in CLL via transcriptional dysregulation and demonstrate that this pro-survival function can be achieved by either somatic mutation or overexpression of this CLL driver. This emphasizes the need for combinatorial approaches to overcome IKZF3-mediated BCR inhibitor resistance.

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Anti-Aiolos Antibody, clone 9D10, clone 9D10, from mouse