Molecular Therapy: Oncology (Sep 2024)
Smoldering oncolysis by foamy virus carrying CD19 as a CAR target escapes CAR T detection by genomic modification
Abstract
Chimeric antigen receptor (CAR) T cells have had limited success against solid tumors. Here, we used an oncolytic foamy virus (oFV) to display a model CAR target antigen (CD19) on tumors in combination with anti-CD19 CAR T cells. We generated oFV-Δbel2 and oFV-bel2 vectors to test the efficiency and stability of viral/CD19 spread. While both viruses conferred equal CAR T killing in vitro, the oFV-Δbel2 virus acquired G-to-A mutations, whereas oFV-bel2 virus had genome deletions. In subcutaneous tumor models in vivo, CAR T cells led to a significant decrease in oFV-specific bioluminescence, confirming clearance of oFV-infected tumor cells. However, the most effective therapy was with high-dose oFV in the absence of CAR T cells, indicating that CAR T clearance of oFV was detrimental. Moreover, in tumors that escaped CAR T cell treatment, resurgent virus contained deletions within the oFV-CD19 transgene, allowing the virus to escape CAR T elimination. Therefore, oFV represents a slow smoldering type of oncolytic virus, whose chronic spread through tumors generates anti-tumor therapy, which is abolished by CAR T therapy. These results suggest that further development of this oncolytic platform, with additional immunotherapeutic arming, may allow for an effective combination of chronic oncolysis.