The Tn Antigen Promotes Lung Tumor Growth by Fostering Immunosuppression and Angiogenesis Via Interaction with Macrophage Galactose-type Lectin 2 (MGL2)
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Tn is a tumor-associated carbohydrate antigen that constitutes both a diagnostic tool and an immunotherapeutic target. It originates from interruption of the mucin O-glycosylation pathway through defects involving, at least in part, alterations in core-1 synthase activity, which is highly dependent on Cosmc, a folding chaperone. Tn antigen is recognized by the Macrophage Galactose-type Lectin (MGL), a C-type lectin receptor present on dendritic cells and macrophages. Specific interactions between Tn and MGL shape anti-tumoral immune responses by regulating several innate and adaptive immune cell programs. In this work, we generated and characterized a variant of the lung cancer murine cell line LL/2 that expresses Tn by mutation of the Cosmc chaperone gene (Tn LL/2). We confirmed Tn expression by lectin glycophenotyping and specific anti-Tn antibodies, verified abrogation of T-synthase activity in these cells, and confirmed its recognition by the murine MGL2 receptor. Interestingly, Tn LL/2 cells were more aggressive in vivo, resulting in larger and highly vascularized tumors than those generated from wild type Tn LL/2 cells. In addition, Tn tumors exhibited an increase in CD11c F4/80 cells with high expression of MGL2, together with an augmented expression of IL-10 in infiltrating CD4 and CD8 T cells. Importantly, this immunosuppressive microenvironment was dependent on the presence of MGL2 cells, since depletion of these cells abrogated tumor growth, vascularization and recruitment of IL-10 T cells. Altogether, our results suggest that expression of Tn in tumor cells and its interaction with MGL2-expressing CD11cF4/80 cells promote immunosuppression and angiogenesis, thus favoring tumor progression.
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