Exth-18. targeting the adenosinergic immune suppression pathway in high grade glioma synergizes with innate immune checkpoint blockade

Abstract Immune response in the tumor microenvironment is modulated by the conversion of eATP to AMP to adenosine via the ecto-enzymes CD39 and CD73. Overexpression of CD73 in tumors leads to an increase in extracellular adenosine concentration and decrease in eATP, resulting in immune suppression. In this study, CD73 knockouts were created in adult and pediatric glioma cell lines (DIPG17, T3691, BT245) and used to quantify the effects of CD73 knockout on macrophage phagocytosis in the presence of extracellular AMP. In cell line DIPG17, CD73 knockout significantly increased phagocytosis with and without external AMP compared to the WT. In the WT condition, addition of AMP significantly reduced phagocytosis, while this decrease was not significant in the CD73-KO. The addition of anti-CD47 antibody significantly increased phagocytosis with external AMP in the WT condition. Similar results were obtained with cell line T3691. However, CD73 knockout combined with anti-CD47 treatment and external AMP showed significantly greater phagocytosis than the WT condition. This suggests that a combination of anti-CD73 and anti-CD47 treatment may be more effective in the tumor microenvironment. Lastly, in cell line BT245, CD73 knockout significantly increased phagocytosis as seen in the other cell lines. However, no significant difference was observed between WT and CD73-KO with extracellular AMP or anti-CD47. In vivo studies were conducted in orthotopic xenograft mouse models with DIPG17 CD73 knockout cells. Combination treatment with anti-CD47 antibody significantly decreased tumor burden and prolonged survival in the CD73-KO tumors compared to anti-CD47 treated DIPG17-WT tumors. We conclude that the CD73 adenosinergic pathway and the CD47-SIRPα pathway may present a target for immunotherapy in pediatric and adult gliomas.