BackgroundThe clinical benefit of immune checkpoint blockade (ICB) therapy is often limited by the lack of pre-existing CD8+ T cells infiltrating the tumor. In principle, CD8+ T-cell infiltration could be promoted by therapeutic vaccination. However, this remains challenging given the paucity of vaccine platforms able to induce the strong cytotoxic CD8+ T-cell response required to reject tumors. A therapeutic cancer vaccine that induces a robust cytotoxic CD8+ T-cell response against shared tumor antigens and can be combined with ICB could improve the outcome of cancer immunotherapy.MethodsHere, we developed a heterologous prime-boost vaccine based on a chimpanzee adenovirus (ChAdOx1) and a modified vaccinia Ankara (MVA) encoding MAGE-type antigens, which are tumor-specific shared antigens expressed in different tumor types. The mouse MAGE-type antigen P1A was used as a surrogate to study the efficacy of the vaccine in combination with ICB in murine tumor models expressing the P1A antigen. To characterize the vaccine-induced immune response, we performed flow cytometry and transcriptomic analyses.ResultsThe ChAdOx1/MVA vaccine displayed strong immunogenicity with potent induction of CD8+ T cells. When combined with anti-Programmed Cell Death Protein 1 (PD-1), the vaccine induced superior tumor clearance and survival in murine tumor models expressing P1A compared with anti-PD-1 alone. Remarkably, ChAdOx1/MVA P1A vaccination promoted CD8+ T-cell infiltration in the tumors, and drove inflammation in the tumor microenvironment, turning ‘cold’ tumors into ‘hot’ tumors. Single-cell transcriptomic analysis of the P1A-specific CD8+ T cells revealed an expanded population of stem-like T cells in the spleen after the combination treatment as compared with vaccine alone, and a reduced PD-1 expression in the tumor CD8+ T cells.ConclusionsThese findings highlight the synergistic potency of ChAdOx1/MVA MAGE vaccines combined with anti-PD-1 for cancer therapy, and establish the foundation for clinical translation of this approach. A clinical trial of ChadOx1/MVA MAGE-A3/NY-ESO-1 combined with anti-PD-1 will commence shortly.
Glioblastoma is an extremely aggressive and difficult cancer to treat, which may partly be due to its limited ability to induce T-cell responses. However, combining viral vector vaccines with other therapies to generate tumor-specific T cells may provide a meaningful benefit to patients. Here, we investigated whether heterologous prime-boost vaccination with chimpanzee-derived adenoviral vector ChAdOx1 and modified vaccinia Ankara (MVA) vaccines could generate therapeutically effective CD8+ T-cell responses against a model antigen P1A, a mouse homolog of human tumor-associated Melanoma Antigen GenE (MAGE)-type antigens, expressed by a BGL-1 mouse glioblastoma cell line. We demonstrated that heterologous prime-boost vaccination with ChAdOx1/MVA vaccines targeting P1A generated a high magnitude of CD8+ T cells specific for the P1A35-43 epitope presented by the MHC class I molecule H-2Ld. Prophylactic vaccination with ChAdOx1/MVA-P1A significantly prolonged the survival of syngeneic mice subcutaneously challenged with P1A-expressing BGL-1 tumors. Furthermore, different vaccination schedules significantly impact the magnitude of antigen-specific CD8+ T-cell responses and may impact protective efficacy. However, the substantial induction of myeloid-derived suppressor cells (MDSCs) by this tumor model presents a significant challenge in the therapeutic setting. Future work will investigate the efficacy of this vaccination strategy on intracranial P1A-expressing BGL-1 models. Citation Format: Emily E. Steffke, James McAuliffe, Vinnycius Pereira Almeida, Amanda Wicki, Laurine Noblecourt, Gary Kohanbash, Hideho Okada, Carol Sze Ki Leung, Masaki Terabe, Benoit J. Van Den Eynde. Heterologous prime-boost viral vector vaccines for the treatment of a P1A-expressing BGL-1 glioblastoma model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 682.
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