Abstract 5801: Targeted delivery of Exatecan to tumors via a novel cell-penetrating, anti-DNA antibody

Abstract

Abstract The formulation of novel chemotherapeutics capable of precisely targeting and damaging tumor cells, while preserving the integrity of healthy tissues, represents a principal challenge and is recognized as one of the biggest achievements in cancer treatment in the last few decades. Antibody-drug conjugates (ADCs) hold significant potential as an effective cancer treatment, by targeting and delivering cytotoxic drugs exclusively to tumor cells that express distinct antigens associated with malignancy. Due to the necessity for specific surface antigens, therapies with ADCs are limited to specific tumor subtypes. In this study, we show the potential of a lupus-derived, cell-penetrating, anti-DNA antibody for delivering of cytotoxic payload to tumors in vivo. We utilized a fully humanized variant, named as V66, which was chemically linked to the Topoisomerase I inhibitor, Exatecan. The primary mechanism involved in V66 cellular penetration is mediated by the Equilibrative Nucleoside Transporter ENT2. The latter shows elevated expression in a substantial subset of cancer types in comparison to healthy tissues, broadening the range of applications for ADCs in tumor therapy. Using labeled V66, we demonstrated specific tumor delivery in vivo, with minimal impact on healthy tissues. In vitro experiments validated the nuclear localization of V66-Exatecan, where it triggers the activation of the DNA damage repair pathway (DDR). As a consequence of the profound DNA damage, exposure to V66-Exatecan leads to cell death, exhibiting low nanomolar EC50 values across a diverse range of cell lines. Furthermore, V66-Exatecan treatment presents synthetic lethality with BRCA2 deficiency, evidenced by a substantial increase in sensitivity. In vivo efficacy studies conducted in BRCA2 deficient tumors revealed a remarkable effectiveness of V66-Exatecan, leading to almost complete tumor regression and substantial improvement in the probability of survival. In addition to the lack of significant weight changes observed throughout the treatment, further toxicological studies conducted in serum and tissues demonstrated the absence of short- and long-term toxicity, with optimal liver and kidney function and the absence of damage to other tissues. Likewise, bone marrow cellularity remained unaffected. Collectively, these studies indicate that V66-Exatecan achieves targeted treatment of tumor cells, where it induces DNA damage leading to cell death. The in vivo application of V66-Exatecan leads to tumor regression without triggering general toxicity that is otherwise associated with Topoisomerase I inhibitors. This work provides the basis to advance a novel nuclear-penetrating ADC for delivering cytotoxic payloads. Citation Format: Zaira Ianniello, Elias Quijano, Peter M. Glazer. Targeted delivery of Exatecan to tumors via a novel cell-penetrating, anti-DNA antibody [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 5801.