ABSTRACT
Previously Aznar et al., showed that Daple enables Wnt/Frizzled receptors to transactivate trimeric G proteins during non-canonical Wnt signaling via a novel G-protein binding and activating (GBA) motif. By doing so, Daple serves as a double-edged sword; earlier during oncogenesis it suppresses neoplastic transformation and tumor growth, but later it triggers epithelial messenchymal transition (EMT). We have identified and characterized two isoforms of the human Daple/CCDC88c gene. While both isoforms cooperatively suppress tumor growth via their GBA motif, only the full-length transcript triggers EMT and invasion. Aspirin suppresses the full-length transcript and protein but upregulates the short isoform. Both isoforms are suppressed during colon cancer progression, and their reduced expression carries additive prognostic significance. These findings provide insights into the opposing roles of Daple during cancer progression and define the G protein regulatory GBA motif as one of the minimal modules essential for Daple’s role as a tumor suppressor.