T-cell cross-reactivity may explain the large variation in how cancer patients respond to checkpoint inhibitors
- PMID: 29381830
- DOI: 10.1111/sji.12643
T-cell cross-reactivity may explain the large variation in how cancer patients respond to checkpoint inhibitors
Abstract
The therapeutic use of the immune system to specifically attack tumours has been a long-standing vision among tumour immunologists. Recently, the use of checkpoint inhibitors to turn-off immunosuppressive signals has proven to be effective in enhancing T-cell reactivity against patient-specific neoantigens, resulting from somatic mutations. Several of the identified T-cell epitopes share similarity with common bacterial and viral antigens, suggesting the involvement of pre-existing microbial cross-reactive T cells in rapid and durable tumour regression seen in some patients. This notion of T-cell cross-reactivity is further supported by the findings that intestinal bacteria can influence checkpoint-blockade therapy. Moreover, early data indicate the presence of such T cells in long-term survival breast cancer patients. This review highlights the main challenges for cancer immunotherapy and discusses the potential contribution of T-cell cross-reactivity in cancer immunotherapy and whether it can be used as a biomarker to predict the responsiveness to checkpoint inhibitors.
Keywords: checkpoint inhibitors; cross-reactivity; foreign peptides; immunotherapy; molecular mimicry; neoantigens.
© 2018 The Foundation for the Scandinavian Journal of Immunology.
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