Abstract
Abstract Background: Overexpression of sialic acids on glycans, called hypersialylation is a common alteration in cancer that drives immune evasion via interaction with Sialic acid-binding immunoglobulin-like lectin (Siglec) immunoregulatory receptors on tumor-infiltrating immune cells. Myeloid derived suppressor cells (MDSCs) generated by cancer-induced aberrant myelopoiesis are highly immunosuppressive cells inhibiting immune cells via direct interaction or secretion of suppressive cytokines. Targeting the complex suppressive tumor microenvironment (TME) remains a challenge. Methods: Siglec expression of murine and human MDSCs in healthy conditions and tumor setting was assessed by flow cytometry. Functional analysis of Siglec-E knockout on MDSCs in mice was evaluated using SigE-LysMCre mice and suppressive capacity was tested in vitro in combination with SiglecE blocking and cleavage of Sialoglycans using Sialidase. Results were confirmed in the human setting using an in vitro assay to generate MDSC-like cells including RNA-Sequencing and a MDSC suppression assay with cancer-derived MDSCs. Results: MDSCs express multiple inhibitory Siglec receptors in humans and mice. Knockout of SiglecE in the myeloid compartment in vivo resulted in prolonged survival and increased T cell infiltration compared to litter mates expressing Siglec-E. Of note, desialylation of MDSCs and Siglec-E blocking in vitro reduced MDSCs suppressive function against T cells. Similarly, reducing Sialoglycans by Sialidase in human MDSC generated in vitro resulted in increased suppressive capacity and downregulation of functional MDSC markers on RNA level. Findings were validated with lung cancer patient derived MDSCs. Conclusion: Our results provide first insights into the importance of the Siglec-Sialoglycans axis to modulate MDSCs in the TME. Targeting glycosylation of MDSCs with Sialidase reduces their suppressive capacity making it a powerful approach to improve cancer immunotherapy. Further studies are needed to reveal the underlying mechanisms. Citation Format: Ronja Wieboldt, Andreas Zingg, Emanuele Carlini, Anastasiya Börsch, Heinz Läubli, Natalia Rodrigues Manutano. Disturbing the Siglec-Sialoglycan axis to target myeloid- derived suppressor cells in the tumor microenvironment [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 1259.
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