Abstract
BackgroundEpithelial ovarian carcinoma is a deadly disease characterized by overt peritoneal metastasis. Individual cells and multicellular aggregates, or spheroids, seed these metastases, both commonly found in ascites. Mechanisms that foster spheroid attachment to the peritoneal tissues preceding formation of secondary lesions are largely unknown.MethodsCell culture models of SKOV-3, OVCAR3, OVCAR4, Caov-3, IGROV-1, and A2780 were used. In this report the role of versican was examined in adhesion of EOC spheroids and cells to peritoneal mesothelial cell monolayers in vitro as well as in formation of peritoneal tumors using an in vivo xenograft mouse model.ResultsThe data demonstrate that versican is instrumental in facilitating cell and spheroid adhesion to the mesothelial cell monolayers, as its reduction with specific shRNAs led to decreased adhesion. Furthermore, spheroids with reduced expression of versican failed to disaggregate to complete monolayers when seeded atop monolayers of peritoneal mesothelial cells. Failure of spheroids lacking versican to disaggregate as efficiently as controls could be attributed to a reduced cell migration that was observed in the absence of versican expression. Importantly, both spheroids and cells with reduced expression of versican demonstrated significantly impaired ability to generate peritoneal tumors when injected intraperitoneally into athymic nude mice.ConclusionsTaken together these data suggest that versican regulates the development of peritoneal metastasis originating from cells and spheroids.
Highlights
Epithelial ovarian carcinoma is a deadly disease characterized by overt peritoneal metastasis
Expression of versican is upregulated in Epithelial ovarian carcinoma (EOC) spheroids All versican isoforms detected in SKOV-3, IGROV-1, Caov-3, OVCAR3, and A2780 were expressed at different levels (Figure 1A)
Flow cytometry analysis of versican expression in parental non-transfected SKOV-3 as well as those transiently transfected with control (Ctrl) and VCAN Small inhibitory ribonucleic acid (siRNA). (A) Expression of TP53 was tested in EOC cell lines SKOV-3, OVCA432, and OVCAR3 using Western blot
Summary
Epithelial ovarian carcinoma is a deadly disease characterized by overt peritoneal metastasis. Mechanisms that foster spheroid attachment to the peritoneal tissues preceding formation of secondary lesions are largely unknown. Successful colonization of the abdomen by EOC cells and spheroids to a large extent depends on their ability to attach to mesothelial surfaces of the peritoneal organs and tissues. Mesothelial cells are specialized cells that outline the entire surface of the peritoneal cavity. These cells, among other functions, provide a protective barrier against invading pathogens and secrete surfactant molecules to provide a non-adhesive surface. Multiple interactions between EOC cells and mesothelial cells have been reported to contribute to peritoneal adhesion, including CD44-hyaluronan, α5β1-integrin-fibronectin, L1neuropilin-1, CA125-mesothelin, and CX3CL1-CX3CR1 [9,10,11,12,13,14,15,16]. Inhibition of spheroid adhesion could be essential in preventing secondary lesions, as these multicellular aggregates can efficiently escape chemotherapy and radiation, as shown using in vitro models, which might contribute to recurrence of EOC in treated patients [4,17,18,19]
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