Abstract

Pancreatic ductal adenocarcinoma (PDA) remains a lethal malignancy despite tremendous progress in its molecular characterization. Indeed, PDA tumors harbor four signature somatic mutations1–4, and a plethora of lower frequency genetic events of uncertain significance5. Here, we used Sleeping Beauty (SB) transposon-mediated insertional mutagenesis6,7 in a mouse model of pancreatic ductal preneoplasia8 to identify genes that cooperate with oncogenic KrasG12D to accelerate tumorigenesis and promote progression. Our screen revealed new candidates and confirmed the importance of many genes and pathways previously implicated in human PDA. Interestingly, the most commonly mutated gene was the X-linked deubiquitinase Usp9x, which was inactivated in over 50% of the tumors. Although prior work had attributed a pro-survival role to USP9X in human neoplasia9, we found instead that loss of Usp9x enhances transformation and protects pancreatic cancer cells from anoikis. Clinically, low USP9X protein and mRNA expression in PDA correlates with poor survival following surgery, and USP9X levels are inversely associated with metastatic burden in advanced disease. Furthermore, chromatin modulation with trichostatin A or 5-aza-2′-deoxycytidine elevates USP9X expression in human PDA cell lines to suggest a clinical approach for certain patients. The conditional deletion of Usp9x cooperated with KrasG12D to rapidly accelerate pancreatic tumorigenesis in mice, validating their genetic interaction. Therefore, we propose USP9X as a major new tumor suppressor gene with prognostic and therapeutic relevance in PDA.

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