Abstract B039: Identification of sex-specific molecular features in glioma transcriptome

Abstract

Abstract Glioma is a lethal disease with limited treatment options available. Sex differences in glioma are well-documented in clinical settings, with males having twice the risk of developing the disease and increased mortality compared to female counterparts. To investigate the molecular basis of sex differences in glioma, we analyzed transcriptomic sex differences in a collection of three independent glioma datasets and validated them in additional independent studies. The impact of differentially expressed genes were assessed through Gene Set Enrichment Analysis (GSEA) on approximately 5000 gene sets to interpret their biological relevance. Given the well-recognized heterogeneity of glioma, we also integrated three single-cell RNA (scRNA) sequencing datasets to decipher the sex differences in cellular composition and cell-type specific differential gene expression between male and female tumors. The effects of sex on gene expression are modest and primarily driven by the X chromosome (14 out of 16 differentially expressed genes were on the X chromosome). These genes are associated with escape from X-chromosome inactivation (e.g., KDM5C, KDM6A) and are also sex-differentially expressed (DE) in the healthy human brain according to Genotype-Tissue Expression (GTEx) data. GSEA results suggest increased activity in cell proliferation and neuronal signaling in male GBM samples, whereas females show enrichment in glycoprotein/lipid metabolism. By deconvoluting the cell-type composition, we identified a higher percentage of pericytes in the male glioma tumor microenvironment compared to those in females, which is consistent with recent spatial-omic discoveries in glioma. By integrating scRNA sequencing data, we found that both differentially expressed genes and pathways show cell-type-specific enrichment. For example, the female-biased gene GBGT1 is exclusively expressed in the myeloid lineage, while male-biased neuronal pathways are enriched in cancer stem cells. Integrating with the inference of cell trajectories, we observed that male tumors harbor more unconnected, invasive malignant cells than females, which might explain the poor prognosis in male glioma patients. In summary, our results provide a comprehensive multi-level characterization of sex differences in glioma tumors, and these findings will provide novel insights into glioma disease progression and development of new therapy. Citation Format: Yingbo Huang, Yuting Shan, Weijie Zhang, Christina Printzis, Lorenzo Pesce, Barbara Elaine Stranger, R. Stephanie Huang. Identification of sex-specific molecular features in glioma transcriptome [abstract]. In: Proceedings of the AACR Special Conference on Brain Cancer; 2023 Oct 19-22; Minneapolis, Minnesota. Philadelphia (PA): AACR; Cancer Res 2024;84(5 Suppl_1):Abstract nr B039.