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Neoadjuvant STING Activation, Extended Half-life IL2, and Checkpoint Blockade Promote Metastasis Clearance via Sustained NK-cell Activation

Lauren E. Milling, Daniel Garafola, Yash Agarwal, Shengwei Wu, Ayush Thomas, Nathan D. Donahue, Josetta Adams, Nikki Thai, Heikyung Suh, Darrell J. Irvine

2021Cancer Immunology Research30 citationsDOIOpen Access PDF

Abstract

Abstract Combination immunotherapy treatments that recruit both innate and adaptive immunity have the potential to increase cancer response rates by engaging a more complete repertoire of effector mechanisms. Here, we combined intratumoral STimulator of INterferon Genes (STING) agonist therapy with systemically injected extended half-life IL2 and anti–PD-1 checkpoint blockade (hereafter CIP therapy) to drive innate and adaptive antitumor immunity in models of triple-negative breast cancer. Unlike treatment with the individual components, this trivalent immunotherapy halted primary tumor progression and led to long-term remission for a majority of animals in two spontaneously metastasizing orthotopic breast tumor models, though only as a neoadjuvant therapy but not adjuvant therapy. CIP therapy induced antitumor T-cell responses, but protection from metastatic relapse depended on natural killer (NK) cells. The combination of STING agonists with IL2/anti–PD-1 synergized to stimulate sustained granzyme and cytokine expression by lung-infiltrating NK cells. Type I IFNs generated as a result of STING agonism, combined with IL2, acted in a positive-feedback loop by enhancing the expression of IFNAR-1 and CD25 on lung NK cells. These results suggest that NK cells can be therapeutically targeted to effectively eliminate tumor metastases. See related Spotlight by Demaria, p. 3 .

Topics & Concepts

MedicineImmunotherapyCancer researchImmunologyGranzymeStingInnate immune systemCD8Immune systemPerforinEngineeringAerospace engineeringinterferon and immune responsesImmune Cell Function and InteractionImmune cells in cancer