Immune therapy using checkpoint inhibitors or adoptive cell transfer has revolutionized the treatment of several types of cancers. However, response to treatment is currently limited to a fraction of patients. Elucidation of immune modulatory mechanisms might optimize patient selection and present ways to modify anti-cancer immune responses. We recently discovered the expression and an important costimulatory role of TAM receptor MerTK signaling on activated human primary CD8+ T cells. Here we extend our study of the costimulatory role of MerTK expression in human CD8+ T cells. We uncover a clear link between MerTK expression and less differentiated Central Memory T cells based on an increased expression of CCR7, CD45RO, CD28, CD62L, and an altered metabolic profile. In addition, we observe an improved proliferative capacity and elevated expression of effector molecule IFNγ upon recall responses of MerTK-expressing cells in vitro. Finally, using gp100TCR-transduced T cells, we demonstrate how PROS1 treatment results in improved cytotoxicity and killing of tumors. Our findings describe a role of MerTK expression in T cells, which could be exploited in the search for improving immunotherapeutic approaches.
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