SHP2 Is Required for BCR-ABL1-Induced Hematologic Neoplasms

Abstract

AbstractBCR-ABL1-targeting tyrosine kinase inhibitors (TKIs) have revolutionized treatment of Philadelphia chromosome-positive (Ph+) hematologic neoplasms. Nevertheless, acquired TKI resistance remains a major problem in chronic myeloid leukemia (CML), and TKIs are less effective against Ph+B-cell acute lymphoblastic leukemia (B-ALL). GAB2, a scaffolding adaptor that binds and activates SHP2, is essential for leukemogenesis by BCR-ABL1, and a GAB2 mutant lacking SHP2 binding cannot mediate leukemogenesis. Using a genetic loss-of-function approach and bone marrow transplantation (BMT) models for CML and BCR-ABL1+B-ALL, we show that SHP2 is required for BCR-ABL1-evoked myeloid and lymphoid neoplasia.Ptpn11deletion impairs initiation and maintenance of CML-like myeloproliferative neoplasm, and compromises induction of BCR-ABL1+B-ALL. SHP2, and specifically, its SH2 domains, PTP activity and C-terminal tyrosines, is essential for BCR-ABL1+, but not WT, pre-B cell proliferation. The MEK/ERK pathway is regulated by SHP2 in WT and BCR-ABL1+pre-B cells, but is only required for the proliferation of BCR-ABL1+cells. SHP2 is required for SRC family kinase (SFK) activation only in BCR-ABL1+pre-B cells. RNAseq reveals distinct SHP2-dependent transcriptional programs in BCR-ABL1+and WT pre-B cells. Our results suggest that SHP2, via SFKs and ERK, repressesMXD3/4to facilitate a MYC-dependent proliferation program in BCR-ABL1-transformed pre-B cells.