Inhibigens, Personal Neoantigens That Drive Suppressive T Cell Responses, Abrogate Protection Of Therapeutic Anti-Tumor Vaccines

Therapeutic cancer vaccine efficacy is reliant on tumor-specific neoantigens. Empirical methods to identify relevant neoantigens may overcome poor predictive values of current in silico approaches. The ATLAS™ platform is a personalized bioassay that uses high-throughput screening of autologous APCs and T cells against a patient’s mutanome to identify neoantigens that are characterized as stimulatory or inhibitory (inhibigens) based on changes in T cell cytokine secretion. In a B16F10 murine model, therapeutic vaccination with ATLAS-identified neoantigens resulted in arrested tumor growth with durable immune responses that protected mice from re-challenge. Mice that were vaccinated with an inhibigen and neoantigen combination had significantly abrogated tumor protection relative to controls. IFNγ ELISpot analysis revealed that inhibigen vaccination suppressed all antigen-specific immune responses, suggesting that inhibigens can be immunodominant. Inhibigen vaccinated mice had multiple tumor microenvironment changes including reduced T cell infiltration, altered CD8+/CD4+ T cell ratios and increased inhibitory marker expression relative to controls. These results indicate that the presence of inhibigens in an otherwise protective vaccine can alter the tumor microenvironment and abolish T cell-mediated protection. Epitope mapping of neoantigens and inhibigens and tetramer design for differential gene signature analysis of inhibigen-specific T cells is being performed. These data suggest that identification and exclusion of inhibigens from cancer vaccines is critical to prevent unintended pro-tumor responses.