Oncogenic E3-ligase adaptors MAGE-A3/6 promote cancer cell migration via BAP18 degradation

Cancer testis antigens are widely expressed in human malignancies. Melanoma-Associated Antigens (MAGE) A3 and A6 have been proposed to modulate protein turnover and metabolism in cancer cells. However, the substrate specificity of MAGE-A3/6 and the impact on cancer cell behavior remain poorly understood. Although previous research has identified binding partners, a molecularly validated target for MAGE-A3/6-mediated proteasomal degradation has not been described. In this study, we redefine the substrate specificity of MAGE-A3/6 and present a mechanistic framework for substrate binding, polyubiquitination, and subsequent degradation. We identify BPTF-Associated Protein of 18kDa (BAP18) as a bona fide novel substrate of MAGE-A3/6 and demonstrate its direct regulation via a molecularly defined substrate-degron-E3-adaptor interaction. The degradation of BAP18 by MAGE-A3/6 underlies phenotypic alterations in cancer cells, such as enhanced migratory capacity. This previously unrecognized molecular link is observed in both cancer cell lines and human cancer tissues, supporting a role as a fundamental oncogenic process. The discovery of a molecularly defined interaction between MAGE-A3/6 and their substrate enables systematic investigation into oncogenic protein degradation in human cancers and may inform future therapeutic strategies that leverage the molecular function of aberrantly reexpressed germline proteins in cancer.