- Alizadeh, Darya;
- Wong, Robyn A;
- Gholamin, Sharareh;
- Maker, Madeleine;
- Aftabizadeh, Maryam;
- Yang, Xin;
- Pecoraro, Joseph R;
- Jeppson, John D;
- Wang, Dongrui;
- Aguilar, Brenda;
- Starr, Renate;
- Larmonier, Claire B;
- Larmonier, Nicolas;
- Chen, Min-Hsuan;
- Wu, Xiwei;
- Ribas, Antoni;
- Badie, Behnam;
- Forman, Stephen J;
- Brown, Christine E
Chimeric antigen receptor (CAR) T cells mediate potent antigen-specific antitumor activity; however, their indirect effects on the endogenous immune system are not well characterized. Remarkably, we demonstrate that CAR T-cell treatment of mouse syngeneic glioblastoma (GBM) activates intratumoral myeloid cells and induces endogenous T-cell memory responses coupled with feed-forward propagation of CAR T-cell responses. IFNγ production by CAR T cells and IFNγ responsiveness of host immune cells are critical for tumor immune landscape remodeling to promote a more activated and less suppressive tumor microenvironment. The clinical relevance of these observations is supported by studies showing that human IL13Rα2-CAR T cells activate patient-derived endogenous T cells and monocytes/macrophages through IFNγ signaling and induce the generation of tumor-specific T-cell responses in a responding patient with GBM. These studies establish that CAR T-cell therapy has the potential to shape the tumor microenvironment, creating a context permissible for eliciting endogenous antitumor immunity. SIGNIFICANCE: Our findings highlight the critical role of IFNγ signaling for a productive CAR T-cell therapy in GBM. We establish that CAR T cells can activate resident myeloid populations and promote endogenous T-cell immunity, emphasizing the importance of host innate and adaptive immunity for CAR T-cell therapy of solid tumors.This article is highlighted in the In This Issue feature, p. 2113.