Abstract
Abstract Background: It’s now increasingly recognized that ovarian cancer (OC) ascites play a significant role in OC progression - behavior of tumor cells is influenced by the nature of their surrounding microenvironment. Thus, characterization of ascites composition is essential to understand how this milieu affects tumor progression and particularly the immunosuppressive pathways that would underlie immune response dysfunctions and, in turn, how biological ascites effects can be influenced by that composition. Methods: Ascites samples were collected from advanced OC patients. Through respective multiplexed approaches of flow cytometry-based marker expression analysis and quantitation of mediators, immune context was profiled by investigating immune cell composition and levels of a plethora of soluble factors, including cytokines/chemokines, and metabolic pathways of some amino acids known to be involved in immunosuppression. Furthermore, ascites fluids were functionally screened for their biological effects on healthy monocytes, either undifferentiated or undergoing M1 polarization. Results: Unlike healthy PBMCs, OC ascites were mostly “enriched” in regulatory/immunosuppressive immune cell subsets including T and myeloid populations. Also, T cells were shown to highly express immune checkpoints such as PD1 in T cells and TIGIT in Tregs. Intriguingly, a high CD4/CD8 ratio was seen. Also, CD163+ tumor-associated macrophages were shown to express CSF1R, CCR8 and CCR2, and to even display a mixed phenotype since also expressing Arg1, CD80, and iNOS. On acellular fractions, most ascites demonstrated elevated CCL18, IL6, LIF, VEGF, and CCL2 levels, and low IL2, IL4, and IL17 levels. Interestingly, unlike healthy plasmas, these ascites appeared to harbor a metabolically-immunosuppressive profile characterized by high glutaminolysis and tryptophan (Trp) degradation in kynurenine (Kyn). Functionally, we demonstrated that not only ascites basically polarized monocytes into M2 macrophages, but even antagonized with their M1 polarization to ultimately tilt to M2 status. Conclusions: Taken together, our data show that ascites fluids most favorable to the M2 phenotype were associated with high LIF, VEGF, IL6, CCL2, and CCL18 levels, and with elevated Kyn to Trp ratios - Kyn levels being strongly higher than in healthy plasmas. Our results thus highlight a peculiar altered environment of OC ascites where a mixture of suppressive cells and signaling factors mediate extracellular cues leading to immune cell activity dysfunction. Altogether, these translational findings highlight OC ascites as a valuable tool to understand the mechanisms of suppression and develop predictive profiles, and to provide new insights for the identification of new targets and development of targeted-therapies. Citation Format: Assia Chaibi, Coriolan Lebreton, Dominique Bodet, Jean-Philippe Guegan, Guillaume Babin, Antoine Italiano, Alban Bessede, Imane Nafia. Profiling of immune cell components and soluble factors in ovarian cancer ascites highlights impaired immune environment. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 4705.
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