Prostate Stroma Increases the Viability and Maintains the Branching Phenotype of Human Prostate Organoids

The fibromuscular stroma of the prostate regulates normal epithelial differentiation and contributes to carcinogenesis in vivo. We developed and characterized a human 3D prostate organoid co-culture model that incorporates prostate stroma. Primary prostate stromal cells increased organoid formation and directed organoid morphology into a branched acini structure similar to what is observed in vivo. Organoid branching occurred distal to physical contact with stromal cells, demonstrating non-random branching. Stroma-induced phenotypes were similar in all patients examined, yet they maintained inter-patient heterogeneity in the degree of response. Stromal cells expressed growth factors involved in epithelial differentiation, which was not observed in non-prostatic fibroblasts. Organoids derived from areas of prostate cancer maintained differential expression of alpha-methylacyl-CoA racemase and showed increased viability and passaging when co-cultured with stroma. The addition of stroma to epithelial cells in vitro improves the ability of organoids to recapitulate features of the tissue and enhances the viability of organoids., • Co-culture with human primary prostate stroma improves epithelial organoid viability • Stromal cell contact in co-culture directs epithelial organoid branching • Prostate stromal cells express morphogenic factors unique from non-prostate fibroblasts • Co-culture with stroma maintains AMACR and increases survival of cancer derived-organoids , Bioengineering; Biological Sciences; Cell Biology; Tissue Engineering