TMIC-22. IDENTIFICATION OF EXOSOME MIRNA-MRNA INTERACTIONS IN THE GLIOMA TUMOR IMMUNE MICROENVIRONMENT

Abstract

Abstract INTRODUCTION Exosomes have emerged as key local and systemic immune modulators in glioma, particularly in tumors with an IDH mutation. However, the exact mechanism by which these vehicles communicate with the tumor immune microenvironment warrants further exploration. We sought to identify exosomal miRNA differences in discrete genomic subsets in glioma and predict potential mRNA targets in tumor immune cell populations. METHODS Exosomes were isolated from IDH wild-type (IDHwt) and IDH mutant (IDHm) glioma organoids using ultracentrifugation. Nanoparticle Tracking Analysis and western blot were used to validate exosome capture. Exosomal miRNA was sequenced using the Illumina Novaseq platform and targets were predicted using TargetScan. Peripheral blood mononuclear cells (PBMCs) were isolated from glioma patients and processed for scRNA-seq. RESULTS The characteristics of isolated exosomes were consistent with previously published data. Six miRNAs were over-expressed in IDHm exosomes compared to IDHwt. Interestingly, none of these miRNAs were significantly up-regulated in IDHm tumor tissue. Comparison between predicted targets of IDHm exosome miRNA and scRNA-seq of circulating tumor PBMCs identified a set of expressed genes involved in the FOXO pathway, which is implicated in microglia activation and polarization. Furthermore, scRNA-seq analysis showed that the FOXO3 pathway is activated in CD14+AREG+ monocytes and CD14+RNA-lo monocytes, which are two cell populations that are fractionally down-regulated in IDHm glioma. CONCLUSION Our group and others have defined mutation-dependent mechanisms of immunosuppression in glioma. Here, we characterized the effects of tumor mutational status on exosome miRNA cargo and conducted a miRNA-mRNA network analysis to identify potential targets in tumor-associated myeloid cells. Our results suggest that exosomes may play a role in suppressing specific populations of monocytes via the FOXO pathway in an IDH-mutation dependent manner. This data sets the stage for mechanistic exploration of glioma exosomes on peripheral myeloid tumor immunity.