Abstract
Trained immunity (TI) is functional memory displayed by innate immune cells (IICs). TI facilitates rapid, non-specific responses to pathogens upon secondary challenge. It is driven by immunological signaling and metabolic rewriting via epigenetic alteration, triggered by recognition of certain stimuli. Recently, immune checkpoint inhibitors have come into common use in clinical oncology settings, and genetically engineered cytotoxic T cells comprise a potent cancer treatment strategy. However, the contributions of TI in the tumor microenvironment (TME) are only beginning to be uncovered. Accumulating evidence that various microorganisms and vaccines convey tumoricidal ability suggest that TI may become a useful anti-cancer tool. The expected roles of TI in tumor therapy are the 1) promotion of proinflammatory cytokine section, 2) enhancement of phagocytosis, 3) quick expansion and recruitment of cancer-specific cytotoxic T cells to the TME through neoantigen presentation, 4) reversal of immunosuppression in the TME, and 5) removal of pathogens associated with carcinogenesis or tumor development. Medium- to long-term TI durability may reduce the risk of tumor development. Recent findings on TI usher in new aspirations for cancer treatment.
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