Abstract

Abstract The induction of CD8+ T cell exhaustion, driven by the tumor microenvironment, is thought to be a major mechanism by which tumors can escape immune surveillance and are able to persist and progress. T cell exhaustion is typically characterized by the expression of co-inhibitory markers such as PD-1, LAG-3 and TIM-3 and a reduced capacity for pro-inflammatory cytokine production. Whilst treatment with therapeutics targeted at checkpoint inhibitors, such as Nivolumab (anti-PD-1), have shown great promise in the treatment of a subset of individuals and tumor types, resistance to these approaches is prevalent. As such, novel approaches are required in order to provide alternative options for the rescue of T cell exhaustion and cancer treatment. Here we describe the characteristics of an in vitro human T cell exhaustion assay whereby in vitro stimulated T cells phenotypically and functionally recapitulate the exhausted T cells found within the tumor microenvironment and where exhaustion can be partially rescued by treatment with anti-PD-1. Furthermore, we demonstrate the effect of treatment with an inhibitor of a novel target identified in exhausted T cells on T cell function; both through analysis of pro-inflammatory cytokine production and the ability to kill tumor cells. These assays and approaches enable investigation into the ability of compounds to influence reversal of T cell exhaustion where anti-PD-1 treatment does not fully reverse the exhausted phenotype and offers the ability to test combination therapy approaches. Citation Format: Rhoanne McPherson, Francis Acklam, Joanne Hay, Mark Barbour, Courtney Grant, Preeti Singh, Adriana Gambardella, Justyna Rzepecka, Stephen Anderton, Hayley Gooding. Implications of Targeting Novel Pathways in Exhausted T Cells for Immuno-Oncology Therapeutic Intervention [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr LB158.

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