Abstract Diffuse intrinsic pontine glioma (DIPG) is an aggressive brain tumour, being the leading cause of paediatric death caused by cancer. Despite all the advances made regarding effective therapies, the… Click to show full abstract
Abstract Diffuse intrinsic pontine glioma (DIPG) is an aggressive brain tumour, being the leading cause of paediatric death caused by cancer. Despite all the advances made regarding effective therapies, the survival is dismal. Our lab has engineered the oncolytic virus Delta-24-ACT armed with the costimulatory ligand 41BBL in order to increase the antitumoral effect of the adenovirus. 41BB is a costimulatory receptor which promotes the expansion of activated T cells and the generation and maintenance of CD8 T memory cells. Therefore, we propose the use of Delta-24-ACT as a therapeutic approach for DIPG tumours. We observed that Delta-24-ACT is able to infect and replicate in NP53 and PDGFB-driven, two DIPG murine cell lines. Furthermore, 41BBL is expressed in the membranes of the infected cells and results with immunogenic cell death as shown by the different DAMPs. Injection of Delta-24-ACT in DIPG model was safe, showed no sign of toxicity and led to a significantly increase in the median overall survival, generating anti-glioma memory in long-term survivors. Mechanistic experiments, showed an increase of T cell infiltration (mainly CD8), decrease of proliferating cells and a reduction of the number of vessels in FFPE brain samples in the treated mice. We are currently performing nanostring analyses to assess the changes in the transcriptional immune phenotype of treated versus control mice. In summary, our data suggest that Delta-24-ACT is safe and induces a potent antitumor immune response in DIPG models mainly based in the activation of CD8 lymphocytes recruited by the viral activity.
               
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