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Assessment of the immune landscapes of advanced ovarian cancer in an optimized in vivo model
Clinical and Translational Medicine, Volume: 11, Issue: 10
Swansea University Authors: Simone Pisano, Gareth Healey , Deya Gonzalez , Steve Conlan , Bruna Corradetti
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DOI (Published version): 10.1002/ctm2.551
BackgroundOvarian cancer (OC) is typically diagnosed late, associated with high rates of metastasis and the onset of ascites during late stage disease. Understanding the tumor microenvironment and how it impacts the efficacy of current treatments, including immunotherapies, needs effective in vivo m...
|Published in:||Clinical and Translational Medicine|
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BackgroundOvarian cancer (OC) is typically diagnosed late, associated with high rates of metastasis and the onset of ascites during late stage disease. Understanding the tumor microenvironment and how it impacts the efficacy of current treatments, including immunotherapies, needs effective in vivo models that are fully characterized. In particular, understanding the role of immune cells within the tumor and ascitic fluid could provide important insights into why OC fails to respond to immunotherapies. In this work, we comprehensively described the immune cell infiltrates in tumor nodules and the ascitic fluid within an optimized preclinical model of advanced ovarian cancer.MethodsGreen Fluorescent Protein (GFP)-ID8 OC cells were injected intraperitoneally into C57BL/6 mice and the development of advanced stage OC monitored. Nine weeks after tumor injection, mice were sacrificed and tumor nodules analyzed to identify specific immune infiltrates by immunohistochemistry. Ascites, developed in tumor bearing mice over a 10-week period, was characterized by mass cytometry (CyTOF) to qualitatively and quantitatively assess the distribution of the immune cell subsets, and their relationship to ascites from ovarian cancer patients.ResultsTumor nodules in the peritoneal cavity proved to be enriched in T cells, antigen presenting cells and macrophages, demonstrating an active immune environment and cell-mediated immunity. Assessment of the immune landscape in the ascites showed the predominance of CD8+, CD4+, B–, and memory T cells, among others, and the coexistance of different immune cell types within the same tumor microenvironment.ConclusionsWe performed, for the first time, a multiparametric analysis of the ascitic fluid and specifically identify immune cell populations in the peritoneal cavity of mice with advanced OC. Data obtained highlights the impact of CytOF as a diagnostic tool for this malignancy, with the opportunity to concomitantly identify novel targets, and define personalized therapeutic options.
ascites; CyTOF; immunotherapy; mass cytometry; model; ovarian cancer; peritoneal cancers
Faculty of Medicine, Health and Life Sciences
European Union’s Horizon 2020 Research and Innovation Program, Grant/Award Number: 663830