Towards the era of immune checkpoint inhibitors and personalized cancer immunotherapy.

Cancer immunotherapy has a long developmental history, beginning with William Coley's first bacterial mixture ('Coley's toxin') in 1891, which led to the development of nonspecific immunotherapy. After the research team of Thierry Boon succeeded in isolating the first melanoma antigen gene () and identifying its major histocompatibility complex-restricted peptide in 1991, many kinds of cancer antigens were successively identified and so-called cancer vaccines were clinically tested. Although cancer vaccine therapy is expected to be the new cancer immunotherapy, it is currently unable to yield sufficient therapeutic effects when used alone and has thus not yet been approved as a drug. Meanwhile, various types of cell therapies, including tumor-infiltrating lymphocyte therapy, T-cell receptor-engineered T-cell therapy, and chimeric antigen receptor T-cell therapy, have shown remarkable clinical efficacy. Additionally, the discovery of immune checkpoint molecules has led to the success of immune checkpoint inhibitors, and cancer immunotherapy has now become a major pillar of cancer treatment. Currently, there are high expectations for the development of personalized neoantigen vaccines and T-cell therapies. The era of personalized cancer immunotherapy combined with immune checkpoint inhibitors is expected to arrive circa 2030.