Natural killer (NK) cells can elicit an immune response against malignantly transformed cells without recognizing antigens, and they also exhibit cytotoxic effects and immune surveillance functions in tumor immunotherapy. Although several studies have shown the promising antitumor effects of NK cells in immunotherapy, their function is often limited in the tumor microenvironment because tumor cells can easily escape NK cell-induced death. Thus, for efficient tumor immunotherapy, the mechanism by which tumor cells escape NK cell-induced cytotoxicity must be fully understood. Various novel molecules and checkpoint receptors that mediate the disruption of NK cells in the tumor microenvironment have been discovered. In this review, we analyze and detail the major activating and inhibitory receptors on the surface of NK cells to delineate the mechanism by which tumor cells suppress NKG2D ligand expression and increase tumor receptor and inhibitory receptor expression [NKG2A, programmed cell death 1 (PD-1), and T-cell immunoglobulin and immunoreceptor tyrosine inhibitory motif (TIGIT)] on the NK cell surface, and thus inhibit NK cell activity. We also reviewed the current status of treatments based on these surface molecules. By comparing the therapeutic effects related to the treatment status and bypass mechanisms, we attempt to identify optimal single or combined treatments to suggest new treatment strategies for tumor immunotherapy.
Keywords: Immune evasion; NKG2D; PD-1; combination therapy; natural killer cell.
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