Background: Androgen deprivation, anti-androgen and androgen biosynthesis inhibitor treatment can initially control the metastatic prostate cancer (PCa), but treatment-refractory progression frequently follows, with the loss of tumor suppressors (TSPs) and increased expression of cell cycle proteins. Inhibition of the nuclear export protein, Exportin 1 (XPO1) leads to nuclear accumulation of cargo proteins such as TSPs & cell-cycle regulators implicated in castration-resistant PCa (CRPC) progression. XPO1 and specific cargo genes are overexpressed in metastatic CRPC relative to benign & primary prostate tumors, implicating XPO1 activity as playing a role in disease progression. Selinexor (KPT-330), a novel, oral SINE currently in Phase 1/2 for both hematological and solid tumors, has potent activity against CRPC. We hypothesized this activity is due selinexor induced nuclear expression of TSPs. Methods: To test this hypothesis, we treated selected PCa cell lines and patient-derived xenografts (PDXs, two adenocarcinomas and one small cell carcinonoma) with selinexor to determine the effect on survival and cargo protein localization. Results: Treatment with selinexor markedly inhibited PCa cell proliferation in vitro, activated the tumor suppressor TP53 & inhibited cell-cycle regulators. Also, treatment of the PDXs with selinexor for at least 3 weeks significantly inhibited tumor growth & reduced the prostate-specific antigen level in the adenocarcinomas. Selinexor increased cell death in all three PDX tumors and reduced cell proliferation in the adenocarcinomas, but not in the small-cell tumor. Expression analyses demonstrated that selinexor induced nuclear accumulation of different cargo proteins unique to the PCa model, accounting for PDX-specific regression. Conclusions: These results point to an anti-tumorigenic effect of selinexor treatment across a spectrum of hormone-refractory PCa that may provide insight into the drivers of PCa treatment resistance and heterogeneity.