Recent advances in therapeutic cancer vaccines
- PMID: 40379970
- DOI: 10.1038/s41568-025-00820-z
Recent advances in therapeutic cancer vaccines
Abstract
The success of cancer prevention vaccines targeting cancer-causing viruses has drastically reduced cancer mortality worldwide. However, the development of therapeutic cancer vaccines, which aim to elicit an immune response directly against cancer cells, has faced notable clinical setbacks. In this Review, we explore lessons learned from past cancer vaccine trials and how the field has progressed into an era of renewed promise. Previous vaccines primarily targeted tumour-associated antigens and were mainly tested as monotherapies in late-stage cancers. In contrast, contemporary vaccines focus on targeting tumour-specific antigens (neoantigens) and are showing initial evidence of clinical efficacy, particularly in early-stage cancers and precancers when combined with immune checkpoint inhibitors. Advances in tumour profiling and novel vaccine platforms have enhanced vaccine specificity and potency. We discuss recent clinical trials of therapeutic cancer vaccines and outline future directions for the field.
© 2025. Springer Nature Limited.
Conflict of interest statement
Competing interests: M.Y. receives grant/research support (to Johns Hopkins) from Bristol-Myers Squibb, Exelixis, Incyte and Genentech; receives honoraria from Exelixis, AstraZeneca, Replimune, Hepion, Lantheus, Genentech and Incyte; is the co-inventor of a patent related to neoantigen vaccines; and is a co-founder with equity of Adventris Pharmaceuticals. N.Z. receives grant/research support (to Johns Hopkins) from Bristol-Myers Squibb; receives honoraria from Genentech; is the co-inventor of patents related to neoantigen vaccines; and is a co-founder with equity of Adventris Pharmaceuticals. E.M.J. reports other support from Abmeta and Adventris; personal fees from Dragonfly, Neuvogen, CPRIT, Surge Tx, Mestag, Medical Home Group and HDTbio; grants from Lustgarten, Genentech, BMS, NeoTx and Break Through Cancer; is a founder of and holds equity in Adventris Pharmaceuticals; and serves as a consultant to the entity. Further, Adventris Pharmaceuticals has licensed a technology described in this study from the Johns Hopkins University. As a result of that agreement, E.M.J. and the University are entitled to royalty distributions related to technology described in the study discussed in this publication. This arrangement has been reviewed and approved by the Johns Hopkins University in accordance with its conflict of interest policies.
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