Litcius/Paper detail

Inhibition of the RacGEF VAV3 by the small molecule IODVA1 impedes RAC signaling and overcomes resistance to tyrosine kinase inhibition in acute lymphoblastic leukemia

Shailaja Hegde, Anjelika Gasilina, Mark Wunderlich, Yuan Lin, Marcel Buchholzer, Oliver H.F. Krumbach, Mohammad Akbarzadeh, Mohammad Reza Ahmadian, William Seibel, Yi Zheng, John P. Perentesis, Benjamin Mizukawa, Lisa M. Privette Vinnedge, José A. Cancelas, Nicolas Nassar

2021Leukemia12 citationsDOIOpen Access PDF

Abstract

Abstract Aberrant RHO guanine nucleotide exchange factor (RhoGEF) activation is chief mechanism driving abnormal activation of their GTPase targets in transformation and tumorigenesis. Consequently, a small-molecule inhibitor of RhoGEF can make an anti-cancer drug. We used cellular, mouse, and humanized models of RAC-dependent BCR-ABL1-driven and Ph-like acute lymphoblastic leukemia to identify VAV3, a tyrosine phosphorylation–dependent RacGEF, as the target of the small molecule IODVA1. We show that through binding to VAV3, IODVA1 inhibits RAC activation and signaling and increases pro-apoptotic activity in BCR-ABL1-transformed cells. Consistent with this mechanism of action, cellular and animal models of BCR-ABL1-induced leukemia in Vav3 -null background do not respond to IODVA1. By durably decreasing in vivo RAC signaling, IODVA1 eradicates leukemic propagating activity of TKI-resistant BCR-ABL1(T315I) B-ALL cells after treatment withdrawal. Importantly, IODVA1 suppresses the leukemic burden in the treatment refractory pediatric Ph + and TKI-resistant Ph + B-ALL patient-derived xenograft models better than standard-of-care dasatinib or ponatinib and provides a more durable response after treatment withdrawal. Pediatric leukemia samples with diverse genetic lesions show high sensitivity to IODVA1 ex vivo and this sensitivity is VAV3 dependent. IODVA1 thus spearheads a novel class of drugs that inhibits a RacGEF and holds promise as an anti-tumor therapy.

Topics & Concepts

DasatinibCancer researchLeukemiaGuanine nucleotide exchange factorTyrosine kinaseGTPasePonatinibSignal transductionTyrosine-kinase inhibitorBiologyImatinib mesylateIn vivoTyrosine phosphorylationCancerMyeloid leukemiaImmunologyImatinibCell biologyGeneticsChronic Myeloid Leukemia TreatmentsAcute Lymphoblastic Leukemia researchAcute Myeloid Leukemia Research