Abstract 4554: Functionally distinct T cell subsets contribute to ImmTAC-mediated anti-tumor response

Introduction: Bispecific T cell engagers hold promise for effective cancer treatment. The anti-tumor activity of these therapeutics molecules predominantly relies on their capacity to induce direct killing of tumor cells by engaging the cytotoxic machinery of polyclonal CD8+ T cells. However, the impact of additional functionally different T cell populations that can be engaged alongside CD8+ T cells remains unclear. ImmTAC molecules are a novel class of bispecific fusion proteins that use an affinity-enhanced monoclonal TCR to target tumor antigen-derived peptides presented by HLA, and an anti-CD3 monomeric antibody to engage T cells. Tebentafusp, our lead clinical candidate, targets a gp100-derived peptide and is under clinical investigation in metastatic melanoma. Preliminary data revealed T cell activation, trafficking and infiltration into the tumor bed in patients responding to treatment. Importantly not only CD8+ T cells, but also different subsets of CD4+ T cells appeared to be activated, mobilized and redirected to the tumor site following tebentafusp treatment, suggesting a potential contribution of these T cell subsets to the anti-tumor response. The aim of this study was to investigate in vitro the functional capacity of different T cell populations, besides CD8+ T cells, following ImmTAC-mediated redirection toward cancer cells. Methods: Th1, Th2, Th17 CD4+ T cells, γδ T cells and Mucosal-Associated Invariant T cells (MAIT) were isolated from healthy volunteers and their functional response following exposure to ImmTAC in the presence of target cells was analysed. Results: In addition to CD8+ T cells, other T cell populations, were activated in vitro by ImmTAC and elicited a range of effector functions that may differentially contribute to anti-tumor responses. For example, we found that γδ T cells were able to mount rapid and potent cytokine and cytotoxic responses against cancer cells upon redirection with ImmTAC. The mechanisms that underpin our in vitro observations and the potential correlations in patients treated with tebentafusp are under investigation. Conclusions: Multiple T cells populations display functionally distinct responses following ImmTAC-mediated redirection. These results will add valuable insight to our understanding of bispecific T cell engager mechanism of action. In addition, they will help guide rationale for improving the design of these therapeutic molecules and select appropriate combination strategies. Citation Format: Adel Benlahrech, David K. Cole, Christopher J. Holland, Rupert Kenefeck, Rahul C. Khanolkar, Cheryl McAlpine, Sion Lewis, Angela Valerio-Fernandes, Mariantonella Vardeu, David Berman, Marco Lepore. Functionally distinct T cell subsets contribute to ImmTAC-mediated anti-tumor response [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4554.