Abstract
Abstract SEA-CD40 is a non-fucosylated, humanized IgG1 monoclonal antibody directed against human CD40, a co-stimulatory receptor of the TNF receptor superfamily. The consequence of enhanced SEA-CD40/FcγRIIIa binding is potent immune stimulatory activity. CD40 receptor ligation induces multiple pathways; to pave the road for identification of a specific activity signature in the clinical setting, in vitro preclinical assays were developed to monitor the immune modulatory activity of SEA-CD40. Human PBMCs stimulated with increasing concentrations of SEA-CD40 were assessed for immune changes including cytokine production, cellular activation, and modulation of cellular subsets. SEA-CD40 PBMC stimulation elicited a unique set of cytokines including MIP-1β, MCP-1, and IL-8. In addition to inducing cytokines, specific immune cell changes were also observed including up-regulation of stimulatory molecules on monocyte/ macrophages, activation of NK cells, and changes in cellular subsets such as deletion of B-cells. While some of these changes were common across the other CD40 therapeutic antibodies being tested in the clinic, SEA-CD40-specific changes were identified. These changes included a reduction in the immune dampening cytokine IL-10, induction of Th1 CXCR3 positive cells, and reduction of T-regulatory cells, all potentially contributing to an antitumor immune response. The specific in vitro SEA-CD40 signature was also observed in vivo in cynomolgus monkeys. SEA-CD40 treatment induced the same signature cytokines observed in vitro and elicited the same cellular changes including depletion of B-cells, and activation of CD8+ T-cells. A CD40 receptor occupancy assay was also created to correlate receptor engagement with activity. Interestingly, while SEA-CD40 is rapidly cleared from plasma, it is detectable on the surface of antigen-presenting cells for up to 3 weeks. The initial starting dose for SEA-CD40 clinical trials was calculated using the minimal anticipated biological effect level (MABEL). SEA-CD40 cytokine induction was the most sensitive preclinical marker of biologic activity and was, therefore, used for MABEL dose calculation. In the ongoing phase 1 First-In-Human clinical trial, this preclinical SEA-CD40 activity signature is being monitored in adult patients with advanced solid tumors (study NCT02376699). Establishing a clear immune biomarker strategy from pre-clinical research to clinical trials is vital for tracking the activity of our immuno-oncology drugs in patients and for identifying a safe and efficacious regimen. Citation Format: Shyra J. Gardai, Haley Neff-LaFord, Angela Epp, Jing Yang, Thomas Manley, Che-Leung Law. SEA-CD40: from bench to bedside. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4994.
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