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An immunosuppressive vascular niche drives macrophage polarization and immunotherapy resistance in glioblastoma

Fan Yang, Md. Naushad Akhtar, Duo Zhang, Rakan El‐Mayta, Junyoung Shin, Jay F. Dorsey, Lin Zhang, Xiaowei Xu, Wei Guo, Stephen Bagley, Serge Y. Fuchs, Constantinos Koumenis, Justin D. Lathia, Michael J. Mitchell, Yanqing Gong, Yi Fan

2024Science Advances37 citationsDOIOpen Access PDF

Abstract

Cancer immunity is subjected to spatiotemporal regulation by leukocyte interaction with neoplastic and stromal cells, contributing to immune evasion and immunotherapy resistance. Here, we identify a distinct mesenchymal-like population of endothelial cells (ECs) that form an immunosuppressive vascular niche in glioblastoma (GBM). We reveal a spatially restricted, Twist1/SATB1-mediated sequential transcriptional activation mechanism, through which tumor ECs produce osteopontin to promote immunosuppressive macrophage (Mφ) phenotypes. Genetic or pharmacological ablation of Twist1 reverses Mφ-mediated immunosuppression and enhances T cell infiltration and activation, leading to reduced GBM growth and extended mouse survival, and sensitizing tumor to chimeric antigen receptor T immunotherapy. Thus, these findings uncover a spatially restricted mechanism controlling tumor immunity and suggest that targeting endothelial Twist1 may offer attractive opportunities for optimizing cancer immunotherapy.

Topics & Concepts

ImmunotherapyImmune systemCancer researchImmunologyBiologyImmunosuppressionChimeric antigen receptorPopulationMacrophage polarizationMesenchymal stem cellStromal cellCancer immunotherapyTumor microenvironmentMacrophageMedicineCell biologyBiochemistryIn vitroEnvironmental healthImmune cells in cancerPhagocytosis and Immune RegulationCancer Cells and Metastasis
An immunosuppressive vascular niche drives macrophage polarization and immunotherapy resistance in glioblastoma | Litcius