IMMU-06. THE ROLE OF BRAIN TUMOR MICROENVIRONMENT ON T CELL TELOMERE SHORTENING

Abstract

Abstract INTRODUCTION Glioblastoma (GBM) stands as the most frequent and the most aggressive of the primary brain tumors. GBM-driven immunomodulatory mechanisms induce T-cell exhaustion or senescence leading to impaired anti-tumor responses. Telomeres are nucleoprotein complexes located at the ending regions of eukaryotic chromosomes that become shorter during each cell cycle or due to cellular stress leading to DNA damage response and cell cycle arrest. Tumor-associated T-cell senescence associated with telomere loss on different tumor models still represents a barrier to the success of T-cell-based tumor immunotherapies. However, the mechanisms through which the GBM microenvironment promotes T-cell telomere loss remain poorly understood. METHODS We evaluated the expression profile of telomere maintenance-related gene sets of single-cell RNA sequencing from public datasets of GBM patients matched with the peripheral blood. We determined the telomere length, telomere-associated DNA secondary structures (G-quadruplex), β-galactosidase activity, and reactive oxygen species (ROS) production of CD8+ T-cells after 72 h exposure to the conditioned media of malignant glioma murine cell cultures CT2A and GL261. We analyzed the telomere length and G-quadruplex abundance in peripheral and tumor-infiltrated T-cells at different time points of tumor-bearing mice injected with CT2A and GL261 cells. RESULTS CD8+ T-cells exposed to the malignant cell conditioned media showed a 20 % reduction of telomere length compared to controls (p< 0.05), a 1.5-fold increase of β-galactosidase activity (p< 0.05), and a 2-fold increase of ROS production (p< 0.05). Both tumor-infiltrated CD4+ and CD8+ T-cells presented a relative telomere shortening of 22 % compared to spleen CD4+ and CD8+ T-cells (p< 0.05). Besides, G-quadruplex abundance increased by 5-fold in tumor-infiltrated CD4+ and 3-fold in tumor-infiltrated CD8+ T-cells compared to peripheral T-cells (p< 0.05). CONCLUSIONS T-cell telomere maintenance is affected by malignant cell conditioned media. In vivo tumor microenvironment induced telomere shortening of tumor-infiltrated T-cells in a time-dependent fashion.