Anti–PD-1 Induces M1 Polarization in the Glioma Microenvironment and Exerts Therapeutic Efficacy in the Absence of CD8 Cytotoxic T Cells
Ganesh Rao, Khatri Latha, Martina Ott, Aria Sabbagh, Anantha Marisetty, Xiaoyang Ling, Daniel Zamler, Tiffany Doucette, Yuhui Yang, Ling‐Yuan Kong, Jun Wei, Gregory N. Fuller, Fernando Benavides, Adam M. Sonabend, James P. Long, Shulin Li, Michael A. Curran, Amy B. Heimberger
Abstract
Abstract Purpose: Anti-programmed cell death protein 1 (PD-1) therapy has demonstrated inconsistent therapeutic results in patients with glioblastoma (GBM) including those with profound impairments in CD8 T-cell effector responses. Experimental Design: We ablated the CD8α gene in BL6 mice and intercrossed them with Ntv-a mice to determine how CD8 T cells affect malignant progression in forming endogenous gliomas. Tumor-bearing mice were treated with PD-1 to determine the efficacy of this treatment in the absence of T cells. The tumor microenvironment of treated and control mice was analyzed by IHC and FACS. Results: We observed a survival benefit in immunocompetent mice with endogenously arising intracranial glioblastomas after intravenous administration of anti–PD-1. The therapeutic effect of PD-1 administration persisted in mice even after genetic ablation of the CD8 gene (CD8−/−). CD11b+ and Iba1+ monocytes and macrophages were enriched in the glioma microenvironment of the CD8−/− mice. The macrophages and microglia assumed a proinflammatory M1 response signature in the setting of anti–PD-1 blockade through the elimination of PD-1–expressing macrophages and microglia in the tumor microenvironment. Anti–PD-1 can inhibit the proliferation of and induce apoptosis of microglia through antibody-dependent cellular cytotoxicity, as fluorescently labeled anti–PD-1 was shown to gain direct access to the glioma microenvironment. Conclusions: Our results show that the therapeutic effect of anti–PD-1 blockade in GBM may be mediated by the innate immune system, rather than by CD8 T cells. Anti–PD-1 immunologically modulates innate immunity in the glioma microenvironment—likely a key mode of activity.