Glycomics of the immune response: the universe of glycans and lectins in inflammatory and neoplasic microenvironments

Galectins, a family of endogenous glycan-binding proteins able to recognize specific glycoconjugates on cell surface and extracellular matrix, control critical immunological processes involved in immune homeostasis and tumor progression. Given the immunosuppressive role of Galectin-1 (Gal-1) in different models of chronic inflammation and its contribution to the creation of tolerogenic microenvironments in cancer and pregnancy models, the impact of this protein on T helper cell balance and dendritic cells (DCs) functionality was explored. A novel mechanism, based on the differential glycosylation of T helper cell subsets, by which Gal-1 preferentially eliminates antigen-specific Th1 and Th17 cells, leading to a shift toward a Th2 profile was identified. While Th1- and Th-17-differentiated cells expressed the repertoire of cell surface glycans that are critical for Gal-1-induced cell death, Th2 cells are protected from Gal-1 through differential sialylation of cell surface glycoproteins. More recently, the ability of Gal-1 to trigger the differentiation of tolerogenic dendritic cells (DCs), which promote resolution of autoimmune inflammation, was demonstrated. A tolerogenic circuit linking Gal-1 signaling, IL-27-producing DCs and IL-10-secreting T cells was identified. It can be postulated that molecular interactions between endogenous galectins and specific glycans constitute a novel mechanism of homeostatic regulation of immune responses. Understanding the role of protein-glycan interactions in the establishment of tolerogenic or inflammatory programs will enable the design of more rational immunotherapeutic strategies with broad biomedical implications.