Abstract 5302: CB699: A novel mesothelin-binding Humabody® CD40 and CD137 dual-agonist for enhancing immune cell responses against MSLN+ tumors

Abstract

Abstract INTRODUCTION: CD137 is a TNF receptor superfamily (TNFRSF9) costimulatory receptor expressed by T cells and NK cells. Clustering-mediated CD137 signaling enhances immune cell survival, proliferation, cytokine production and memory formation. CD40 (previously TNFRSF5) is a related superfamily member expressed primarily on B cells and antigen-presenting cells (APCs) which upon clustering is also a key modulator of T cell responses. Mesothelin (MSLN) is highly upregulated on tumor cells in ovarian and pancreatic cancer and select other solid tumour histologies. To avoid systemic toxicity, CB699 is designed to be immunologically active in the presence of any two of its three binding targets, thus enhancing both immune-immune and tumour-immune crosstalk. We present here the preclinical pharmacology of CB699. EXPERIMENTAL PROCEDURES: Binding of CB699 to CD40, CD137 or MSLN was measured by surface plasmon resonance and by flow cytometry. CD137 and/or CD40 agonism, immune cell activation and cytokine secretion were evaluated in vitro using reporter gene assays and primary cell coculture assays in the presence/absence of MSLN-expressing tumor cells. The ability of CB699 to enhance tumor cell killing was characterized in 3D spheroid cocultures. CB699 toxicology and toxicokinetics was assessed in a dose range-finding study in cynomolgus macaques. CB699 was also assessed in vivo with a human CD34+ cell engrafted mouse model. RESULTS: CB699 binds to primary and immortalized cells that express CD40, CD137 or MSLN, with low nanomolar affinity. CB699 also binds to cells from primary disaggregated human solid tumors. CB699 induces CD137 reporter cell activity in cocultures containing cells expressing either CD40 or MSLN. Additionally, CB699 induces CD40 reporter cell activity in cocultures containing cells expressing either CD137 or MSLN. CB699 induces IL-2 secretion and upregulation of CD86 on B cells in primary cocultures containing healthy human PBMCs and MSLN expressing cancer cells. Enhanced tumor cell killing was observed in spheroid cultures containing CB699 and was coupled with immune cell expansion. CB699 showed significant pharmacology in vivo with immune cell engrafted mice. Finally, CB699 was well tolerated in a dose range finding non-human primate toxicology study. CONCLUSIONS: CB699 is a novel MSLN-binding CD137 and CD40 dual agonist that selectively enhances immune cell activity by enhancing both T cell and APC signaling axes. CB699 is positioned to enter clinical development. Citation Format: Andrew J. Pierce, Phillip M. Brailey, Sophie Archer, Holly Spencer, Minjung Song, Timothy Wong, Phillip D. Bartlett, Kieran Williams, Lukas Jasaitis, Philip Bland-Ward. CB699: A novel mesothelin-binding Humabody® CD40 and CD137 dual-agonist for enhancing immune cell responses against MSLN+ tumors [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(6_Suppl):Abstract nr 5302.