Brain-Thymus communication as a novel immunosuppressive mechanism in the GL261 model of Glioblastoma

Abstract

Abstract Glioblastoma multiforme (GBM) is incurable and among the most lethal of cancers. Immunotherapy for GBM is hampered by the fact that GBM patients are severely immunosuppressed with dangerously low T cell counts. Importantly, immunotherapy for GBM will be ineffective without defining the mechanism of immunosuppression. Given that GBM does not metastasize, we investigated the possibility of neuro-immune interactions using the GL261 glioma model in C57BL/6 mice. C57BL/6 mice harboring GL261 gliomas have abnormal thymuses which are acutely and significantly involuted compared to healthy control mice. Glioma bearing mice also have significant thymic atrophy which increases with tumor burden. Further structural analysis of the thymus in glioma bearing mice revealed disrupted thymic epithelial cells and reduced EPCAM+ cell expression of MHC II. Thymic subsets in tumor bearing mice were also developmentally skewed with increased generation of single positive T cells and a block at double negative 2 (DN2) to DN3 transition. Peripherally, MHCII expression was also significantly decreased in blood derived cells in glioma bearing mice. This correlated with an overall reduction in total CD4 T cell numbers. The results of this study demonstrate the GL261 model is recapitulating the immune suppression observed in GBM patients. These results also support the presence of a brain-thymus interaction that could negatively impact the development of immunotherapy strategies to treat GBM.