Background: Preclinical models that preserve the tumor microenvironment are critically needed in prostate cancer (PCa) research. Patient-derived xenografts (PDXs) and patient-derived Organotypic Slice Cultures (PD-OSCs) have emerged as promising in vivo and ex vivo platforms to address this gap and better mimic human tumor biology. Methods: Subcutaneous PDX models and PD-OSCs were established in parallel from fresh, primary hormone-naïve PCa patient tissues. PDX models were generated by engrafting tumor fragments into immunodeficient mice, while PD-OSCs were maintained as short-term ex vivo cultures for functional analysis. Results: A cohort of 64 PDXs and 45 PD-OSCs was generated. While first-generation PDX engraftment was successful, subsequent passaging and model expansion were extremely poor. In contrast, PD-OSCs were reliably established, maintained tissue viability, and proved to be a robust platform for functional testing, including gene expression analysis and drug sensitivity screening. Conclusions: Our findings establish both first-generation PDXs and PD-OSCs as valuable “avatar” models for translational research. However, PD-OSCs represent a more efficient and rapid platform for studying primary hormone-naïve PCa biology and evaluating treatment responses, holding significant promise as a predictive tool to guide personalized medicine.
Pecci, V., Borsa, M., Aiello, A., De Martino, S., Cis, L., Pierconti, F., Varacalli, D., Bracco, M., Ripoli, C., Pinto, F., Rotili, D., Grassi, C., Gaetano, C., Pontecorvi, A., Farsetti, A., Nanni, S., A Feasibility Study of Co-Established Patient-Derived Subcutaneous Xenograft and Organotypic Slice Cultures in Hormone-Naive Primary Prostate Cancer Preclinical Modeling: A Single-Institution Experience, <<LIFE>>, 2025; 15 (11): N/A-N/A. [doi:10.3390/life15111719] [https://hdl.handle.net/10807/341258]
A Feasibility Study of Co-Established Patient-Derived Subcutaneous Xenograft and Organotypic Slice Cultures in Hormone-Naive Primary Prostate Cancer Preclinical Modeling: A Single-Institution Experience
Pecci, Valeria;Borsa, Melissa;Aiello, Antimo;Cis, Luca;Pierconti, Francesco;Varacalli, Domenico;Bracco, Martina;Ripoli, Cristian;Pinto, Francesco;Rotili, Dante;Grassi, Claudio;Pontecorvi, Alfredo;Farsetti, Antonella;Nanni, Simona
2025
Abstract
Background: Preclinical models that preserve the tumor microenvironment are critically needed in prostate cancer (PCa) research. Patient-derived xenografts (PDXs) and patient-derived Organotypic Slice Cultures (PD-OSCs) have emerged as promising in vivo and ex vivo platforms to address this gap and better mimic human tumor biology. Methods: Subcutaneous PDX models and PD-OSCs were established in parallel from fresh, primary hormone-naïve PCa patient tissues. PDX models were generated by engrafting tumor fragments into immunodeficient mice, while PD-OSCs were maintained as short-term ex vivo cultures for functional analysis. Results: A cohort of 64 PDXs and 45 PD-OSCs was generated. While first-generation PDX engraftment was successful, subsequent passaging and model expansion were extremely poor. In contrast, PD-OSCs were reliably established, maintained tissue viability, and proved to be a robust platform for functional testing, including gene expression analysis and drug sensitivity screening. Conclusions: Our findings establish both first-generation PDXs and PD-OSCs as valuable “avatar” models for translational research. However, PD-OSCs represent a more efficient and rapid platform for studying primary hormone-naïve PCa biology and evaluating treatment responses, holding significant promise as a predictive tool to guide personalized medicine.
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