Abstract 3207: Notch decoys as potential anti-angiogenic biotherapeutics

Abstract

Abstract Notch signaling is activated by ligands Delta-like 4 (Dll4) and Jagged1 in the tumor microenvironment to promote tumor angiogenesis and perfusion. Notch activation is associated with poor outcomes in several cancers, particularly triple negative breast cancer (TNBC), and affects both tumor angiogenesis and metastasis. The development of therapeutics targeting angiogenesis, such as the Notch pathway, has again attracted attention. Previous approaches to globally inhibit the Notch pathway or block Dll4/Notch1 activation, such as γ-secretase inhibitors (GSI), have raised safety concerns due to gastrointestinal toxicity due to accumulation of secretory goblet cells in the intestine. Similarly, anti-Dll4 therapy resulted in pathological changes in the liver as well as severe vascular neoplasms when evaluated using preclinical animal models. Development of new approaches for targeting the Notch pathway remains a critical clinical problem currently unaddressed. Our lab has previously developed ligand-specific inhibitors of Notch signaling, called Notch decoys, which are comprised of Fc fusions to specific EGF-like repeats of the Notch1 extracellular domain. These Notch decoys bind ligand non-productively and interfere with ligand function. Jagged-specific Notch1 decoys inhibit angiogenesis in vitro and significantly impair tumor growth, tumor angiogenesis, and perfusion without apparent toxicity in mouse models of TNBC. However, this previous work utilized Notch decoys produced via viral expression vectors, which preclude dosage control and limit clinical applicability. We have developed a new generation of Notch “mini” decoys that contain fewer EGF-like repeats. These mini decoys show improved secretion characteristics and can be purified as active proteins in clinically relevant quantities. Using a variety of binding assays, we observed that these Notch mini decoys demonstrate strong but distinct binding to Notch ligands Dll4 and Jagged1 and block Notch signaling when evaluated in cultured cells. Our newly generated Notch decoys can now be sufficiently purified for use in a dose-dependent manner to test the therapeutic role of Notch inhibition on tumor angiogenesis using preclinical animal models. Citation Format: Timothy Sargis, Seock-Won Youn, Hyun Lee, L.A. Naiche, Jan Kitajewski. Notch decoys as potential anti-angiogenic biotherapeutics [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3207.