The effect of adoptive transfer of ex vivo activated T cells on the efficacy and tumor penetrance of intravenously-administered CD3-engaging bispecific antibody.
Gedeon, PC; Suryadevara, CM; Choi, BD; Sampson, JH
Published in: Journal of Clinical Oncology
30 Background: Activated T cells are known to traffic throughout the body including past the blood-brain barrier where they perform routine immune surveillance. Whether activated T cells can be used to enhance the efficacy and delivery of intravenously-administered, immunotherapeutic antibodies has yet to be explored. Methods: To examine efficacy, T cell migration and antibody delivery in vivo, the invasive murine glioma, CT-2A-EGFRvIII, was implanted orthotopically in human CD3 transgenic mice. Cohorts of mice were given vehicle or 1x10 non-specifically activated, syngeneic T cells intravenously. Beginning the subsequent day, groups were treated with daily intravenous infusions of human-CD3-binding, tumor-lysis-inducing bispecific antibody (hEGFRvIII-CD3 bi-scFv) or control bispecific antibody. To block T cell extravasation, cohorts received natalizumab or isotype control via intraperitoneal injection every other day beginning on the day of adoptive cell transfer. T cell migration was assessed using whole body bioluminescence imaging of activated T cells transduced to express firefly luciferase. Bispecific antibody biodistribution was assessed using PET-CT imaging of iodine-124 labeled antibody. Results: Following intravenous administration, ex vivo activated T cells tracked to invasive, syngeneic, orthotopic glioma, reaching maximal levels on average four days following adoptive transfer. Administration of ex vivo activated T cells enhanced bispecific antibody efficacy causing a statistically significant increase in survival (p = 0.007) with 80% long-term survivors. Treatment with the T cell extravasation blocking molecule natalizumab abrogated the increase in efficacy to levels observed in cohorts that did not receive adoptive transfer of activated T cells (p = 0.922). Pre-administration with ex vivo activated T cells produced a statistically significant increase in tumor penetrance of radiolabeled bispecific antibody (p = 0.023). Conclusions: Adoptive transfer of non-specifically activated T cells enhances the efficacy and tumor penetrance of intravenously-administered CD3-binding bispecific antibody.