BIOM-11. THE ROLE OF INSULIN-LIKE GROWTH FACTOR 2 BINDING PROTEIN 3 (IGF2BP3) AS A DRIVER OF TUMORIGENESIS IN GLIOBLASTOMA

Abstract

Abstract Glioblastoma (GBM) is the most aggressive primary brain tumor with a poor median survival of fifteen months after diagnosis. GBM accounts for half of malignant and fifteen percent of all primary brain tumors diagnosed in adults. To promote targeted therapy, there are ongoing efforts to understand GBM at a molecular level. This involves characterization of these tumors via their transcriptional and mutational profile. Recent studies indicate aberrations in receptor tyrosine kinase (RTKs), including EGFR and PDGFRA, and the Pi-3 kinase (PI3K) signaling pathways are major drivers of tumorigenesis in GBM. Using a proteomics approach to locate downstream targets of these pathways, we identified IGF2 Binding Protein 3 (IGF2BP3), which is an RNA binding protein, as a downstream effector of aberrant RTK-PI3K signaling in gliomagenesis. Our subsequent follow-up studies indicate that IGF2BP3, which is overexpressed in RTK mutant human GBMs, drives survival and proliferation of RTK-PI3K-dependent human GBM cells. To understand how IGF2BP3 functions to promote RTK-PI3K driven tumorigenesis, we used cultured human GBM cells and in GBM xenograft models to test the effects of loss of IGF2BP3 function in tumorous glia as well as normal glia. Our results indicate that IGF2BP3 activity is essential for self-renewal and maintenance of neural stem-cell like features of GBM tumor cells, but dispensable for the growth of normal glia. Currently, we are using genetic approaches to identify and validate RNA targets of IGF2BP3 function in tumor cells and to understand how these targets are specifically regulated by RTK-PI3K-dependent signaling in glioma. Overall, our data suggests that IGF2BP3 may play a role in promoting GBM tumorigenesis and our future directions aim to reveal an important tumor-specific RNA target signaling pathway for consideration in potential therapeutics.