Lymphocyte activation gene 3 (LAG3), an immune checkpoint, inhibits T cell function by binding to major histocompatibility complex class II (MHCII). Although LAG3 holds significant therapeutic potential for cancer immunotherapy, the molecular mechanisms underlying LAG3-mediated immunosuppression remain poorly characterized. Here, using a reconstituted cell conjugation assay, we demonstrate that LAG3 binds directly to MHCII in a T cell receptor signaling-independent manner. Beyond its role in modulating intercellular adhesion, the LAG3-MHCII interaction remodels the architecture of the immunological synapse (IS). Correlative light and electron microscopy reveals that the LAG3-MHCII interaction creates a remarkably tight cell-cell interface at the IS, which selectively excludes CD4, large receptor-ligand complexes, and whole IgG of LAG3 antibodies. Conversely, the Fab fragment of LAG3 antibodies can penetrate this tight interface, block LAG3-MHCII binding, and enhance T cell responses. In addition, the LAG3-MHCII interaction directly facilitates MHCII trogocytosis. These findings demonstrate that the LAG3-MHCII interaction establishes a selective physical barrier at the IS, providing novel mechanistic insights into LAG3-mediated immunosuppression and suggesting feasible strategies for the development of more effective immunotherapeutic drugs.
Keywords: immunological synapse; immunotherapy; lymphocyte activation gene 3; major histocompatibility complex class II; trogocytosis.
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