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Abstract B008: Tumor-stromal 3D co-cultures to study the role of cancer-associated fibroblasts in the acquisition of androgen-deprivation therapy resistance in prostate cancer

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Introduction and Objective Several studies have shown that cancer-associated fibroblasts (CAFs), the most abundant component in prostate cancer (PCa) microenvironment, promote resistance to androgen deprivation therapies, and metastatic development. The… Click to show full abstract

Introduction and Objective Several studies have shown that cancer-associated fibroblasts (CAFs), the most abundant component in prostate cancer (PCa) microenvironment, promote resistance to androgen deprivation therapies, and metastatic development. The aim of this study is to elucidate the mechanisms of CAF-induced therapy resistance through the establishment of in vitro 3D co-cultures. Methods In this study, the androgen-dependent PNPCa patient-derived xenograft (PDX) model (derived from soft tissue metastasis), and the androgen-independent LAPC9 PDX model (bone metastasis) are used. Epithelial and stromal cells (human and mouse origin, respectively) are separated through magnetic-associated cell sorting to generate PDX-derived organoids and fibroblasts. Fibroblast RNA and protein expression is assessed through RT-qPCR, Western Blot, and Immunofluorescence. Direct 3D co-cultures are obtained by combining fluorescently labelled organoids and fibroblasts in ultra-low attachment plates in defined media. In indirect co-cultures, organoids are cultured in Spherical Plates (Kugelmeiers) with fibroblasts on transwell inserts. Organoid viability is measured after 9 days by CellTiter-Glo 3D Assay. Results PDX-derived fibroblasts express typical CAF genes (e.g. α-smooth muscle actin and Tenascin C), and androgen receptor (AR), both at RNA and protein level. AR protein expression (as well as RNA expression of the AR target gene Fkbp5) is increased in CAFs upon treatment with dyhydrotestosterone (DHT) 10nM, while co-treatment with the AR inhibitor Enzalutamide 10mM abrogates this effect, suggestive of functional AR signaling. These CAFs can organize into tumor/CAF organoid 3D structures upon combination with PDX-derived tumor epithelial cells, providing an in vitro functional model to study tumor-stromal interactions. In indirect (transwell) co-cultures, CAFs increase the viability of the androgen dependent PNPCa organoids, but not that of androgen independent LAPC9. This growth-promoting effect is observed even upon culturing of PNPCa organoids in non-optimal growth conditions, at low DHT concentrations (DHT 0.5nM and 0.25nM versus the standard DHT 1nM). The factors mediating this process will be identified by gene expression profiling of CAFs and organoids in transwell co-cultures and/or monoculture. Conclusions Our data indicate that PCa metastatic cells modify the properties of neighbor stromal cells to support tumorigenesis, since PDX-derived fibroblasts, originally part of the mouse dermal stroma, display CAF features and active AR signaling. 3D co-cultures represent a useful tool to study the tumor-stromal interactions. Our transwell co-culture experiments suggest that CAFs play an important role in supporting the viability and growth of early metastatic androgen dependent PCa cells (PNPCa) by secreting pro-tumorigenic factors. The possibility that CAFs exert different effects depending on the tumor stage setting (early vs advanced) will be subsequently investigated. Citation Format: Francesco Bonollo, Natalie Sampson, George Thalmann, Sofia Karkampouna, Marianna Kruithof-de Julio. Tumor-stromal 3D co-cultures to study the role of cancer-associated fibroblasts in the acquisition of androgen-deprivation therapy resistance in prostate cancer [abstract]. In: Proceedings of the AACR Special Conference: Advances in Prostate Cancer Research; 2023 Mar 15-18; Denver, Colorado. Philadelphia (PA): AACR; Cancer Res 2023;83(11 Suppl):Abstract nr B008.

Keywords: prostate cancer; tumor stromal; resistance; androgen; cancer

Journal Title: Cancer Research
Year Published: 2023

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