Heightened levels of circulating cell-free DNA predict aggressive onset of experimental glioblastoma

Abstract

Abstract Glioblastoma (GBM) is an incurable and aggressive form of brain cancer that is associated with severe peripheral immunosuppression. This immunosuppression is a critical barrier to patient survival and the success of immune modulatory therapies. Using the murine GL261 model of GBM, we recapitulated major features of peripheral immunosuppression observed in patients including spleen atrophy, T cell lymphopenia, and T cell sequestration within the bone marrow. We determined that peripheral immunosuppression in GBM is multifaceted and involves release of novel circulating soluble factors that are found in the serum of glioma-bearing mice. This high molecular weight species potently inhibits T cell proliferation in vitro. Cell-free extracellular DNA has been recently identified as an immune suppressive factor in circulation. We, therefore, assessed cell-free DNA levels in the GL261 model. We determined that serum isolated from glioma-bearing mice harbor significantly higher concentrations of double stranded and single stranded cell-free DNA compared to healthy controls. Serial assessment of DNA concentrations in serum of glioma-bearing mice indicated that the most prominent increase was concurrent with end-stage disease. These findings provide a tractable approach to investigate the cellular source and immune suppressive effects of cell-free DNA in the leading murine model of GBM. Supported by K99NS117799