Litcius/Paper detail

Small-molecule toosendanin reverses macrophage-mediated immunosuppression to overcome glioblastoma resistance to immunotherapy

Fan Yang, Duo Zhang, Haowen Jiang, Jiangbin Ye, Lin Zhang, Stephen Bagley, Jeffery Winkler, Yanqing Gong, Yi Fan

2023Science Translational Medicine62 citationsDOIOpen Access PDF

Abstract

T cell-based immunotherapy holds promise for treating solid tumors, but its therapeutic efficacy is limited by intratumoral immune suppression. This immune suppressive tumor microenvironment is largely driven by tumor-associated myeloid cells, including macrophages. Here, we report that toosendanin (TSN), a small-molecule compound, reprograms macrophages to enforce antitumor immunity in glioblastoma (GBM) in mouse models. Our functional screen of genetically probed macrophages with a chemical library identifies that TSN reverses macrophage-mediated tumor immunosuppression, leading to enhanced T cell infiltration, activation, and reduced exhaustion. Chemoproteomic and structural analyses revealed that TSN interacts with Hck and Lyn to abrogate suppressive macrophage immunity. In addition, a combination of immune checkpoint blockade and TSN therapy induced regression of syngeneic GBM tumors in mice. Furthermore, TSN treatment sensitized GBM to Egfrviii chimeric antigen receptor (CAR) T cell therapy. These findings suggest that TSN may serve as a therapeutic compound that blocks tumor immunosuppression and circumvents tumor resistance to T cell-based immunotherapy in GBM and other solid tumors that warrants further investigation.

Topics & Concepts

ImmunotherapyCancer researchImmune systemImmunosuppressionTumor microenvironmentChimeric antigen receptorT cellMacrophageImmunologyDendritic cellMedicineBiologyBiochemistryIn vitroImmune cells in cancerImmunotherapy and Immune ResponsesCancer Immunotherapy and Biomarkers