Abstract 5603: Heterodimeric IL-15 (hetIL-15) immunotherapy reverses CD8+T cell metabolic dysfunction in murine breast tumors

Abstract

Abstract Introduction: Metabolic fitness and T cell survival are crucial in anti-tumor responses because nutrients are often scarce and other regulatory molecules may be unfavorable in the tumor microenvironment leading to T cell dysfunction, stress, and apoptosis. Tumor-infiltrating cytotoxic CD8+T cells often acquire an altered state of differentiation referred to as “exhaustion” and, as a result, they fail to control tumor outgrowth. IL-15 cytokine stimulates the generation, the proliferation and the cytotoxic function of tumor specific CD8+ T cells and NK cells. The objective of this study was to assess the effects of hetIL-15 immunotherapy after locoregional administration in triple negative breast cancer tumors (TNBC) and to evaluate the metabolic profile of the tumor infiltrating T cells. Study design and methods: We studied the therapeutic efficacy of hetIL-15 immunotherapy in murine EO771 orthotopic breast cancer model. We monitored the effect of the treatment on tumor size and immune infiltration using flow cytometry and immunohistochemistry. We also evaluated hetIL-15 effects on the cell metabolism and the mitochondrial function of the tumor-infiltrating immune cells, using flow cytometry, Seahorse flux analysis, Mitotracker, 2-NBDG and/or Bodipy staining. Results: hetIL-15 peritumoral administration, as monotherapy resulted in complete regression in 40% of the treated animals and increased survival. We demonstrated that tumor infiltrating cytotoxic CD8+T and NK cells were increased in hetIL-15 treated tumors and showed enhanced activation and proliferation, resulting in enhanced intratumoral immunological killing. Metabolic flux analysis of the tumor-infiltrating CD8+T cells from treated mice confirmed a rise in oxygen consumption rate (OCR) with substantial increase of spare respiratory capacity, which supports an activated/non exhausted phenotype of these hetIL-15 treated effector cells. Consistent with the above finding, tumor infiltrated CD8+T cells from hetIL-15 treated mice showed increased mitochondrial potential and fatty acid uptake, as evidenced by increased Mitotracker and Bodipy staining, respectively. In addition, tumor infiltrating CD8+T cells from hetIL-15 treated mice presented elevated extracellular acidification rate (ECAR) and showed a pronounced shift in the OCR to ECAR ratio in comparison to control, confirming their increased proliferating status. Conclusions: Our results indicate that hetIL-15 not only increases the infiltration and the cytotoxic properties of the CD8+T cells inside the tumors, but also enhances the metabolic reprogramming of T cells to achieve superior antitumor efficacy. We suggest that metabolic reprogramming of tumor-specific CD8+T cells might represent a strategy to promote survival in the metabolically hostile TME as part of an approach to enhance the clinical efficacy of immunotherapy. Citation Format: Dimitris Stellas, Sevasti Karaliota, Vasiliki Stravokefalou, Breana Myers, Barbara K. Felber, George N. Pavlakis. Heterodimeric IL-15 (hetIL-15) immunotherapy reverses CD8+T cell metabolic dysfunction in murine breast tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5603.