PHILADELPHIA — (Sept. 27, 2018) — Scientists at The Wistar Institute have implemented a novel structurally designed synthetic DNA vaccine to simultaneously target multiple members of a family of proteins that are specifically overexpressed in several types of cancer. This approach addressed a difficult issue in cancer immunotherapy, specifically how to simultaneously drive antitumor immune responses against multiple tumor antigens in a single, easily delivered formulation. The new strategy could simplify immunotherapy treatment and may prevent cancer escape from immune pressure as the immune system could attack the cancer at multiple susceptible target points. The new vaccine, targeting the human cancer-associated MAGE-A family of proteins, is effective and safe in a melanoma preclinical model, as described in a paper published online in Clinical Cancer Research.
Because their expression is restricted to tumor cells, proteins belonging to the MAGE-A family represent promising targets for immunotherapy. Yet, cancer vaccines targeting the original MAGE-A3 member, which has the highest expression in several solid tumors, have thus far failed to demonstrate efficacy in clinical trials.
In an attempt to solve this conundrum and advance the clinical applications of this promising immunotherapy, researchers at Wistar performed a thorough analysis of the expression levels of all the twelve proteins in the MAGE-A family in human cancers. They observed that many of the MAGE-A members, and not just MAGE-A3, are highly expressed on tumor cells in several cancer types, some of them being present simultaneously in the same patient. These findings suggest that previous vaccines with limited focus on one target were likely not effective in driving strong T-cell immunity because of the natural immune dampening system known as immune tolerance.
"The combination of structural design and synthetic DNA technology offers ample flexibility and specificity in the development of a designer target immunogen," said lead researcher David B. Weiner, Ph.D., executive vice president of The Wistar Institute, director of The Wistar Institute Vaccine & Immunotherapy Center, and W.W. Smith Charitable Trust Professor in Cancer Research. "We amalgamated structurally relevant primary sequences from multiple MAGE-A members, obtaining an optimized consensus DNA vaccine capable of targeting seven MAGE-A family members simultaneously. This vaccine is recognized by the host immune system much more robustly, resulting in improved immune performance."
Tested in mice, the vaccine induced immune cross-reaction with multiple MAGE-A proteins and induced a robust CD8+ T cell-mediated immune response.
"CD8+ T cells are the predominant effectors in the response to immunotherapy; we can think of them as the Navy Seals of cancer immunology," added Weiner.
Importantly, the vaccine significantly slowed tumor growth and prolonged survival in a mouse model of melanoma. The researchers observed reduced invasion in the skin, which was associated with accumulation of CD8+ T cells into the tumors, demonstrating the ability of the vaccine to drive antitumor immunity of importance for melanoma therapy.
"Our cross-reactive vaccine has a significant advantage in preventing tumor escape compared to previously designed MAGE-A3-specific vaccines," said Elizabeth K. Duperret, Ph.D., postdoctoral fellow in the Weiner Lab and first author on the study. "Patients whose tumors express multiple members of this family of antigens represent an important group to study the benefits of this immunotherapy approach."
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This work was supported by National Institutes of Health grants SPORE P50CA174523 and F32 CA213795. Additional funding was provided by the W.W. Smith Charitable Trust, the Basser Foundation and a grant from Inovio Pharmaceuticals, Inc. Core support for The Wistar Institute was provided by the Cancer Center Support Grant P30 CA010815.
The Wistar Institute is an international leader in biomedical research with special expertise in cancer and infectious disease research and vaccine development. Founded in 1892 as the first independent nonprofit biomedical research institute in the United States, Wistar has held the prestigious Cancer Center designation from the National Cancer Institute since 1972. The Institute works actively to ensure that research advances move from the laboratory to the clinic as quickly as possible. wistar.org.
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Related Journal Article
http://dx.doi.org/10.1158/1078-0432.CCR-18-1013
