The Linker Protein GAS7 Negatively Regulates Pre-B Cell Differentiation and Amplifies Proliferation and Survival Signals in Acute Lymphoblastic Leukemia

Abstract

Background:Growth arrest-specific gene 7 (Gas7) functions as an adaptor for SH2- and SH3-containing proteins, in particular in cells that undergo growth arrest. Gas7 is abundantly expressed in the brain and is involved in neuronal differentiation. Interestingly, MLL-GAS7 fusion molecules resulting from the t(11;17)(q23;p13) chromosomal translocation have been reported in treatment-related acute myeloid leukemia (AML; Megonigal et al., 2000) and in a pediatric acute lymphoblastic leukemia (ALL). While the function of MLL has been extensively studied, the role of its fusion partner GAS7 in normal hematopoiesis and leukemia has not been elucidated.Results: Studying gene expression changes during normal B cell development, we identified Gas7 as the gene with the strongest relative increase at the pre-B cell receptor checkpoint. At the transition from IL7-dependent Fraction C’ to IL7-independent small resting pre-B cells (Fraction D), GAS7 mRNA levels were upregulated by >13-fold in both human and mouse B cell progenitors. Withdrawal of IL7 cytokine signaling and Cre-mediated conditional deletion of Stat5ab recapitulated the strong increase of GAS7 expression under cell culture conditions. These finding suggest that GAS7 is part of an adaptive response of differentiating pre-B cells to attenuation of cytokine/Stat5 signaling. Consistent with this scenario, we found that Gas7-/-pre-B cells undergo accelerated differentiation, including spontaneous Ig κ light chain gene recombination and loss of Stat5-signaling. Conversely, overexpression of GAS7, reduced responsiveness of pre-B cells to normal differentiation stimuli. These findings suggest that the linker molecule GAS7 is a negative regulator of pre-B cell differentiation.Likewise, we found that tyrosine kinase inhibitor treatment of human Ph+ ALL cells resulted in a strong increased of GAS7 expression, in parallel with loss of Stat5 function. To elucidate the function of Gas7 in B cell lineage leukemia, we transformed bone marrow pre-B cells from Gas7-/- mice with BCR-ABL1. Gas7 deficient Ph+ ALL cells showed decreased proliferation with reduced S phase and increased apoptosis. In agreement with effects of Stat5 on the sensitivity of Ph+ ALL cells against tyrosine kinase inhibitors (TKIs), Gas7 deficient Ph+ ALL cells showed massively increased susceptibility to Imatinib-induced apoptosis. In addition, absence of Gas7 caused loss of self-renewal capacity and failure to form colonies in methylcellulose assay. Co-immunoprecipitation experiments with flag tagged GAS7 in patient-derived Ph+ALL cells revealed that GAS7 physically interacts with STAT5 and retains STAT5-Y694 in an active conformation.Thereby, GAS7 can propagate even weak Stat5 activity and maintain residual cytokine or BCR-ABL1 oncogenic signaling in normal and malignant pre-B cells.Conclusions: Here show that GAS7 functions as an important positive regulator of Stat5 downstream of cytokine receptors in normal pre-B cells and downstream of BCR-ABL1 and other oncogenes in leukemia. Owing to the GAS7-dependent reinforcement of Stat5-dependent survival and proliferation signaling, normal and leukemic pre-B cells can survive periods of reduced cytokine/oncogene signaling. These findings suggest that the interaction interface between GAS7 and Stat5 represents a potential target for small molecule scaffolds and peptides. DisclosuresNo relevant conflicts of interest to declare.