IMMU-35. G-AMINOBUTYRIC ACID DRIVES GLIOBLASTOMA IN FEMALES BY ACTIVATING THE COMPLEMENT SYSTEM

Abstract

Abstract Interaction between tumor and neural cells drives the progression of glioblastoma (GBM), which is characterized by enhanced immunosuppressive myeloid cell accumulation. Our previous results revealed that myeloid-derived suppressor cell subsets (MDSCs) play a central role in tumorigenesis in a sex-specific manner, with monocytic MDSCs (mMDSCs) accumulating in male tumors and granulocytic MDSCs (gMDSCs) correlating with a worse outcome in females. However, host factors governing sex differences in MDSC subset activity remained unknown. Here, we report that g-aminobutyric acid (GABA) receptor expression by gMDSCs informs their sex-specific behavior. We observed that only female gMDSCs but not male gMDSCs or mMDSCs from either sex respond to GABA by upregulating the antiviral innate immune pathway. As part of this signature, GABA-stimulated female gMDSCs had higher complement 1qa (C1qa) expression. To test the potential role of the GABA pathway on GBM outcome, we tested the GABA analogue pregabalin in preclinical models. Female mice treated with pregabalin succumbed to disease earlier, consistent with our previous observation that gMDSCs have a central role in GBM progression in females. In contrast, pregabalin treatment had no effect in male mice with tumors or immunocompromised female mice. To further evaluate whether C1q is a relevant physiological target, we performed single-cell sequencing of tumor-infiltrating versus circulating MDSC subsets and detected high levels of C1q expression in gMDSCs from tumors. C1q KO transgenic female mice had significantly better outcomes compared to wild-type littermates upon implantation with syngeneic mouse GBM lines, while C1q expression status did not impact the outcome in males. Correspondingly, only in female patients C1q expression correlated with poor prognosis. Collectively, these results identify a neuron-immune-cancer communication axis and indicate that GABA and C1q alter anti-tumor immune responses in a sex-specific manner. These results support the future assessment of the GABA pathway and complement inhibitors as potential immunotherapy agents.