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Abstract Natural Killer (NK) cells are highly responsive cytotoxic immune cells of the innate immune system with well characterized anti-tumor properties. Their ability to directly kill malignant cells and elicit an adaptive immune response makes them a promising candidate for a precision guided immunotherapy in oncology. Bicycle® peptides 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 Bicycle® peptides 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 function. We demonstrate potent, selective binding of our Bicycle® peptides 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 and anti-tumor activity of peripheral and intra-tumoral NK cells to solid tumors. Citation Format: Fay Dufort, Tucker Ezell, Alexandra Rezvaya, Kathleen Ho, Christopher Leitheiser, Philip Brandish, Kevin McDonnell, Nicholas Keen. Modulation of the natural killer cell immune response to tumor with a synthetic tumor -immune cell agonist, NK-TICA™ abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts) ; 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84 (6Suppl): Abstract nr 1340.
Dufort et al. (Fri,) studied this question.
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