EXTH-28. NLGN4X TCR TRANSGENIC T CELLS TARGETING EXPERIMENTAL GLIOMAS

The application of personalized vaccines has shown to be effective in patients with newly diagnosed glioblastoma in phase 1 clinical trials. Responses of CD8 T cells directed against the glioma-associated antigen Neuroligin-4, X-linked (NLGN4X) were reported in multipeptide vaccine trials in patients with glioblastoma. Here, we characterized the functional status of NLGN4X TCR transgenic T cells in vitro and assessed their therapeutic capacity in vivo.

TCR encoding sequences were delivered by lentiviral transduction to activated T cells from healthy donors. After confirmation of TCR surface expression T cells were used for a functional in vitro characterization. For in vivo assessment of NLGN4X-specific TCR transgenic T cells, NLGN4X-expressing U87 glioma cells were injected into the flank of NSG MHCI/MHC II knockout mice, which do not develop graft versus host disease. TCR transgenic T cells were injected intravenously on day 11 and day 18 and tumor size was monitored.

TCR transgenic T cells depicted stable surface expression for at least 11 days in vitro after transduction. Thereby, murine TCR beta constant region positive T cells featured a polyfunctional phenotype demonstrated by a significant increase of Interferon-γ and TNF-α and remained reactive to the NLGN4X epitope for at least 7 days. Additionally, NLGN4X TCR transgenic T cells showed significantly increased antigen-specific production of the cytolytic protein granzyme B and elevated levels of perforin. In a novel xenograft mouse model NLGN4X TCR transgenic T cells slowed the tumor growth compared to the initial tumor size until day 25 after tumor inoculation.

We demonstrate that NLGN4X TCR transgenic T cells specifically and consistently recognize their corresponding immunogenic sequence and target antigen-overexpressing glioma cells. We present first evidence of in vivo reactivity, while further experiments are required to assess the full therapeutic potential of NLGN4X-TCR-transgenic T cell therapy for glioma patients.