摘要
The immune system plays an important role in breast cancer.Triple-negative breast cancer(TNBC)has a higher mutational load compared to other subtypes.In addition,higher levels of tumor-associated antigens suggests that immunotherapies are a promising treatment option especially for TNBC.Our review discusses both the complexity of the immune system and the cancer immune-cell cycle.In fact,a higher level of tumor-infiltrating lymphocytes is associated with an improved prognosis as well as a better response to chemotherapy in TNBC.Important target structures within the cancer immune-cell cycle are the so-called“immune checkpoints”.Immune checkpoint inhibitors(ICPi)block the interaction of certain cell surface proteins that serve as“brakes”of immune reactions.Recent studies have shown ICPi improved survival in early as well as advanced TNBC.However,this has the price of increasing,mainly,immune-mediated toxicity.ICPi strengthen tumor-specific T cell-mediated immunity by“releasing the brake”of the immune system.In combination with chemotherapy,ICPi are already approved for TNBC.As a further step,individualized vaccination strategies against tumor-associated neoantigens represent another promising approach.A liposome-formulated intravenous RNA vaccine encoding different tumor-associated antigens is currently being studied in TNBC and leads to neoantigen-specific immune responses.These novel strategies will improve the prognosis of patients with triple-negative breast cancer.
