Abstract 247: Targeting Notch4 with a novel neutralizing antibody inhibits tumor growth and alters immune cell populations within the tumor microenvironment

Abstract

Abstract Endothelial Notch signaling is critical for tumor angiogenesis and growth. Inhibition of Notch1 or its ligand, Dll4, can induce tumor vessel hypersprouting, which interferes with perfusion and reduces tumor development. Unfortunately, blocking Notch1 in endothelial cells of normal tissue can lead to tissue hypoxia and vascular neoplasms. Notch4, another member of the Notch family, is upregulated and increased in the endothelium of certain tumor types compared to normal vasculature. Reducing Notch4, unlike Notch1, causes reduction in developmental and tumor angiogenesis. Using a newly developed anti-Notch4 antibody, E7011, we assessed the effects on Notch4 inhibition on developmental retinal angiogenesis. E7011 treatment did not alter capillary density within the vascular plexus or endothelial tip cell number, but did decrease radial outgrowth and vein diameter, supporting the hypothesis that Notch4 functions as a pro-angiogenic signal. These findings suggest that the targeting of Notch4 could interfere with tumor angiogenesis and offer a novel therapeutic avenue. To establish the role of Notch4 within the tumor microenvironment, we analyzed its expression in both human and murine tumor samples. Immunofluorescent staining revealed a range of Notch4 expression in both tumor cells and endothelium in human triple negative breast cancers. Several murine syngeneic tumors examined expressed Notch4 primarily in the endothelium with only rare tumor expression. We treated orthotopically implanted Py8119 murine breast carcinomas and B16F10 melanomas with E7011, which significantly reduced tumor size compared to IgG treated controls, indicating that suppression of Notch4 is anti-tumorigenic. To determine mechanistically how E7011 delays tumor growth, we performed single cell RNA sequencing on E7011 and control treated Py8119 tumors. Surprisingly, we found that while Notch4 transcripts were present only in endothelial cells, E7011 administration dramatically altered macrophage and monocyte populations within the tumor. Taken together, these findings indicate that inhibition of tumor endothelial Notch4 by E7011 can regulate the presence of immune cells within the tumor microenvironment and improve tumor control. Citation Format: Jason Eng, L.A. Naiche, Bhairavi Swaminathan, Yu Kato, Krishna Thakkar, Rahul Vadakath, James Herts, Rajyasree Emmadi, Junji Matsui, Jan Kitajewski. Targeting Notch4 with a novel neutralizing antibody inhibits tumor growth and alters immune cell populations within the tumor microenvironment [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 247.