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Programmable bacteria synergize with PD-1 blockade to overcome cancer cell–intrinsic immune resistance mechanisms

Fangda Li, Zaofeng Yang, Thomas Savage, Rosa L. Vincent, Kenia de los Santos-Alexis, Alexander Ahn, Mathieu Rouanne, Dylan L. Mariuzza, Tal Danino, Nicholas Arpaia

2024Science Immunology46 citationsDOIOpen Access PDF

Abstract

Interferon-γ (IFN-γ) is a potent cytokine critical for response to immunotherapy, yet conventional methods to systemically deliver this cytokine have been hindered by severe dose-limiting toxicities. Here, we engineered a strain of probiotic bacteria that home to tumors and locally release IFN-γ. A single intratumoral injection of these IFN-γ–producing bacteria was sufficient to drive systemic tumor antigen–specific antitumor immunity, without observable toxicity. Although cancer cells use various resistance mechanisms to evade immune responses, bacteria-derived IFN-γ overcame primary resistance to programmed cell death 1 (PD-1) blockade via activation of cytotoxic Foxp3 − CD4 + and CD8 + T cells. Moreover, by activating natural killer (NK) cells, bacteria-derived IFN-γ also overcame acquired resistance mechanisms to PD-1 blockade, specifically loss-of-function mutations in IFN-γ signaling and antigen presentation pathways. Collectively, these results demonstrate the promise of combining IFN-γ–producing bacteria with PD-1 blockade as a therapeutic strategy for overcoming immunotherapy-resistant, locally advanced, and metastatic disease.

Topics & Concepts

ImmunotherapyImmune systemBlockadeCytotoxic T cellCancer researchImmunologyBiologyCancer immunotherapyCytokineT cellInterferonReceptorIn vitroBiochemistryCancer Research and TreatmentsCancer Immunotherapy and BiomarkersImmunotherapy and Immune Responses
Programmable bacteria synergize with PD-1 blockade to overcome cancer cell–intrinsic immune resistance mechanisms | Litcius