CAR-T cells to deliver engineered peptide antigens and reprogram antigen specific T cell responses against solid tumors.

2530 Background: Neoantigen depleted malignancies such as colorectal cancer demonstrate primary resistance to immune checkpoint blockade, and solid tumors in general have shown resistance to chimeric antigen receptor (CAR) T cell therapy. However, CAR-T cells have been shown to be capable of delivering various therapeutic molecules in a targeted fashion to the tumor microenvironment, in some cases through extracellular vesicles (EVs). In vivo studies have shown that the presentation of foreign viral peptides by solid tumors can reprogram bystander virus-specific cytotoxic T cells (CTLs) against tumor cells. In this study, we demonstrate that CAR-T cells can deliver engineered peptide antigens to solid tumors, leading to presentation on tumor cells and anti-tumor response. Methods: Second generation CAR-T cells (41BB endodomain) targeting human CD19 (19BBz) or human mesothelin (M5BBz) were generated via retroviral and lentiviral transduction respectively. CAR-T cells were engineered to co-express peptides such as SIINFEKL of ovalbumin and NLVPMVATV of CMV pp65 among others. Peptides were isolated from EVs via ultracentrifugation. For in vivo studies, C57BL/6 or NSG mice were injected on the flank with relevant tumors and treated with peptide-CAR-T cells. In vitro studies utilized flow cytometry and xCELLigence killing assays. Results: Murine 19BBz CAR-T cells expressing the SIINFEKL peptide of ovalbumin (ova-19BBz) were found to transfer SIINFEKL peptide to tumor cells via EVs in vitro and in vivo, leading to peptide presentation on MHC-I of tumor cells. This resulted in significantly delayed tumor growth in tumor bearing mice transfused with OT-I T cells to mimic an existing antigen specific T cell pool. We expanded on these findings by isolating EVs from human M5BBz CAR-T cells expressing CMV viral peptides. Peptide-CAR-T EVs were co-cultured with human ovarian cancer cells to assess presentation to Jurkat T cells. Finally, we utilized primary human T cells from CMV+ healthy donors to assess the clinical feasibility of our peptide delivery approach. Conclusions: CAR-T cells can be engineered to deliver peptides to tumor cells for presentation and subsequent targeting by antigen specific CTLs. This represents a novel strategy for the treatment of non-immunogenic tumors.