CTLA-4 blockade induces CD4 T cell IFNγ-driven microglial phagocytosis and anti-tumor function in glioblastoma.
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Abstract | The limited efficacy of immunotherapies against glioblastoma underscores the urgency of better understanding immunity in the central nervous system. We found that treatment with αCTLA-4, but not αPD-1, prolonged survival in a mouse model of mesenchymal-like glioblastoma. This effect was lost upon the depletion of CD4 T cells but not CD8 T cells. αCTLA-4 treatment increased frequencies of intratumoral IFNγ-producing CD4 T cells, and IFNg blockade negated the therapeutic impact of αCTLA-4. The anti-tumor activity of CD4 T cells did not require tumor-intrinsic MHC-II expression but rather required conventional dendritic cells as well as MHC-II expression on microglia. CD4 T cells interacted directly with microglia, promoting IFNγ-dependent microglia activation and phagocytosis via the AXL/MER tyrosine kinase receptors, which were necessary for tumor suppression. Thus, αCTLA-4 blockade in mesenchymal-like glioblastoma promotes a CD4 T cell-microglia circuit wherein IFNγ triggers microglia activation and phagocytosis and microglia in turn act as antigen-presenting cells fueling the CD4 T cell response. |
Year of Publication | 2023
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Journal | Immunity
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Date Published | 08/2023
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ISSN | 1097-4180
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DOI | 10.1016/j.immuni.2023.07.015
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PubMed ID | 37572655
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