Abstract
Abstract Background: Effective treatment of ovarian cancer (OC) is greatly impacted by advanced, late-stage diagnosis which usually presents with intra-peritoneal metastases, chemoresistance and high recurrence. The development of intra-peritoneal metastases is correlated with the formation of multicellular spheroids disseminated in the peritoneal fluid. Spheroid formation is promoted by a change of cell adhesion properties, enhanced secretion of extracellular matrix (ECM) components that stiffen the tumor stroma and promote the aberrant activation of oncogenic processes, including survival, invasion, and stemness. Tenascin C (TNC) is one of the molecules secreted in the ECM and correlates with migration and metastatic progression in a variety of carcinomas. However, the functional role of TNC in spheroid formation and in the maintenance of the platinum resistant ovarian cancer stem phenotype has not been investigated yet. We tested the hypothesis that the increased expression of TNC and its secretion in the ECM compartment promotes survival of OCSCs, supports OC spheroid formation and tumor progression. Methods: We compared TNC expression in OC cells grown as spheroids and monolayers and in chemoresistant vs sensitive OC cells by realtime-PCR and Western Blot (WB). TNC blockade by siRNA knockdown (KD) was evaluated in combination with carboplatin on spheroid assay, colony formation, and by qPCR of stemness related gene expression. Chromatin immunoprecipitation (ChIP) assay detected the interaction between the β-catenin and the TNC promoter. Results: OC cells grown as spheroids showed a significant increase in TNC expression compared to monolayers. Our results also demonstrated an increase in TNC expression levels in platinum resistant OC cell lines when compared to the platinum sensitive counterpart. A comparison of normal adjacent ovarian epithelium and primary OC tumors on a multitissue array revealed that TNC expression coincided with a pro-tumorigenic phenotype (n=88, P<0.001), correlating with poor outcome. TNC-KD in combination with carboplatin led to a significant decrease in the expression levels of stemness-related genes, spheroid and colony formation. Mechanistically, b-catenin-KD decreased TNC expression levels and β-catenin coimmunoprecipitated with the TNC promoter, suggesting that TNC is a direct β-catenin target. Additionally, OC spheroids treated with the Wnt ligand WNT-3A showed increased TNC expression compared to control untreated cells, as demonstrated by WB. Importantly, the enhanced expression of TNC was followed by its secretion in the ECM compartment, as observed via immunofluorescence imaging, implying a direct role of TNC in the ECM-rearrangement which is responsible for CSC maintenance and spheroid formation. Conclusions: TNC is strongly linked to chemoresistance and is regulated by the oncogenic β-catenin pathway. Our data suggest that strategies aimed at interfering with TNC expression and/or secretion along with carboplatin treatment could be a potential combination therapy in OC. Citation Format: Amber Rogers, Maya Shebeshi, Morganna Gordon, Rula Atwani, Virginie Lazar, Salvatore Condello. Tenascin C promotes ovarian cancer stem cells interactions with the niche [abstract]. In: Proceedings of the AACR Special Conference on Ovarian Cancer; 2023 Oct 5-7; Boston, Massachusetts. Philadelphia (PA): AACR; Cancer Res 2024;84(5 Suppl_2):Abstract nr B095.
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