Exth-98. enhancing t cell trafficking of cd3-engaging immunotherapy to tumors of the central nervous system

Abstract BACKGROUND Effective immunotherapy against tumors of the central nervous system (CNS) requires that the drug the blood brain barrier (BBB) and encounter immune cells. We have previously described a mechanism which may facilitate transport of CD3-engaging therapeutics into the CNS, via carriage on activated T cells. Building on this, we sought to produce specific T cell phenotypes that rapidly enter and accumulate in the CNS. METHODS 8–10-week-old C57/Bl6 mice (n=5-6 per group) were implanted with 30,000 CT2AvIII cells which established over 14 days. Mice received (1) CD45.1 lymphocytes activated with IL-7 and Concanavalin-A (single intravenous (IV) injection, 1 x 107 adoptive lymphocyte transfer (ALT)) or (2) CD45.1 lymphocytes activated with IL-2 and serial Con-A stimulation. Mice were sacrificed 3 hours following ALT and their brains analysed via flow cytometry. A follow-up timepoint of 48 hours was also analysed. Groups were compared using a Mann-Whitney U test. RESULTS Ex vivo culture in group 1 yielded a mixed population of T effector and T central memory cells whereas group 2 resulted in terminally differentiated T effector memory cells only. VLA-4, a migratory integrin involved in T cell entry into the CNS was upregulated in the IL-7 group. Mice in Group 1 demonstrated significantly enhanced entry of CD8+ effector and memory T cells into tumor bearing hemispheres 3- and 48-hours following administration compared to Group 2 (p = 0.005, p = 0.0159 respectively). CONCLUSIONS Varying the cytokine cocktail used for ex vivo activation and expansion of T cells results in markedly different trafficking properties and phenotype composition. Ongoing work will determine how enhanced T cell localization to tumor affects accumulation of immunotherapy via the hitchhiking mechanism. Further, we will evaluate the safety of combinatorial CD3-engaging immunotherapy and ALT in Phase I trials (NCT04903795) using a cGMP Brain Bi-specific T cell engager (BRiTE).