The transcription factor ZNF217 is amplified in 20-30% of breast cancers. Its overexpression accelerates tumor progression, metastasis, and chemoresistance in vivo and correlates strongly with poor prognosis in patients. Due to the high expression and heterogeneous localization of ZNF217 in some human breast tumors, both ZNF217 levels and localization may be critical determinants of ZNF217's function. However, little is known about how ZNF217 is regulated as a protein to promote breast cancer. I discovered that breast tumors and cell lines express both full length and smaller ZNF217 proteins generated by a protease-dependent mechanism. Although the smaller ZNF217 proteins are even more prominent than full length ZNF217 in both human and mouse breast tumors and cell lines, the importance of these smaller forms remains unknown. To investigate the function of smaller ZNF217 proteins, I overexpressed ZNF217 truncation mutants in human breast cancer cells. Interestingly, removal of the N-terminus increased the cytoplasmic ZNF217 and significantly increased primary and metastatic tumor burdens in vivo. Calpain-induced proteolytic cleavage of ZNF217 protein to generate smaller proteins and increase cytoplasmic localization is a potential mechanism by which ZNF217 promotes oncogenic functions. Identification of the smaller ZNF217 oncoproteins as tumor promoting factors may be clinically valuable in generating an assay used to generate personalized treatment strategies for patients with advanced metastatic breast cancer and high ZNF217 expression.