Abstract
Abstract The tumor specific activation of natural killer (NK) cells with Bicycles is an area of active investigation in immune oncology. NK cells are highly responsive immune cells that can detect and eliminate tumor cells and bridge innate to adaptive immune responses. Bicycles are small (ca.1.5kDa), chemically synthetic, structurally constrained peptides discovered via phage display and optimized using structure-driven design and medicinal chemistry approaches. We have applied the Bicycle platform technology to discover and evaluate a new class of fully synthetic molecules termed NK tumor immune cell agonists (NK-TICA®). The NK-TICA® consists of chemically coupled Bicycles® that bind specifically to the key activating receptor, NKp46, and to tumor antigens, that results in highly potent, antigen-dependent receptor activation and NK cell activation. We demonstrate potent, selective binding of our Bicycles to receptor-expressing cells and the capability of the bifunctional molecule to induce NK cell function in vitro. With Bicycle’s novel NK-TICA® compound, we demonstrate the engagement of NK cells, the specific activation and function of NK cells, and enhanced tumor cytotoxicity in a tumor target- and dose-dependent manner. In conclusion, NK-TICAs drive NK cell-mediated tumor cell killing and cytokine production in vitro and as such have the potential to catalyze the development of durable anti-tumor immunity in tumor types not well served by current therapies. We hypothesize that utilization of Bicycle NK-TICA® as a multifunctional immune cell engager will promote the modulation of NK cells, as well as the infiltration and anti-tumor activity of NK cells in solid tumors. Citation Format: Fay Dufort, Christopher J. Leitheiser, Kathleen Ho, Tucker Ezell, Alexandra Rezvaya, Peter Brown, Liuhong Chen, Philip Brandish, Kevin McDonnell, Michael Skynner, Nicholas Keen. Modulation of natural killer cell immune response to tumor with novel synthetic tumor -immune cell agonist, NK-TICA(r) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 1806.
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