Abstract LB355: Cryo-immune vaccination (CIV) by SYNC-T therapy: Preclinical modeling of a novel device-multidrug immunotherapeutic approach to eradicate advanced metastatic cancers

Abstract

Abstract A major challenge to further development of immune checkpoint therapies (ICT) for advanced cancer is the inherent toxicity of higher-order multidrug combinations likely needed to eradicate metastatic disease. Recently, early clinical studies have investigated a new general approach to address this challenge, termed cryo-immune vaccination (CIV). The CIV approach by SYNC-T therapy involves cycles of local cryolysis of a solid tumor followed by infusion of the same lesion with a low-dose multi-API formulation. CIV has never been explored methodically in preclinical or clinical settings, so the basis for systemic responses that have been observed in early clinical testing are not fully understood. Accordingly, as trials of the safety and efficacy of CIV proceed, there is now a need of preclinical model systems to help illuminate the mechanistic foundations of the approach, investigate safety and efficacy, and learn where and how it might be best leveraged. To develop the conceptual framework of CIV, we adapted the orthotopic metastatic 4T1 breast cancer model used extensively in our laboratory as a foundation to study CIV antitumor responses and mechanisms of action. Briefly, breast tumors were initiated in naïve murine subjects by orthotopic injection of 1x104 cells into the mammary fad pads of immunocompetent BALB/c hosts. When tumors reached ~5-7 mm, a time when occult pulmonary metastases have seeded, primary tumors were exposed surgically on skin flaps and contacted directly with a liquid nitrogen-cooled pointed steel rod for 15-30 sec. The rod was then withdrawn and tumor tissue allowed to thaw fully before injection into the cryolysed tumor of a selected ICT multidrug cocktail (or negative control murine IgG) in 25-50 µl total volume. The selected multidrug cocktail was modeled on SYNC-T combination therapy currently under study in a Phase 1 clinical trial (Syncromune, Inc.) Briefly, the ICT drug cocktails were variably composed of murine-reactive antibodies against CTLA4, PD-1 or OX40 (agonist), CD40L (agonist) and CpG oligonucleotide. As a starting point, allometric scaling was used to model dosing analogous to the proprietary ICT drug formulations SV-101 and SV-102 in clinical testing (Syncromune, Inc.). For exploratory toxicology, a standard panel of blood-borne liver and kidney toxicity biomarkers was assessed. For exploratory pharmacology, a ‘super mouse’ design was employed with ELISA-based determinations to measure antibody distribution in blood serum. To gain initial mechanistic insights, responses will be compared in host mice that are genetically deficient in selected components of the adaptive or innate immune systems. Progress in methodological and mechanistic studies will be presented. Citation Format: James B. DuHadaway, Alexander J. Muller, Lisa D. Laury-Kleintop, U. Margaretha Wallon, Susan K. Gilmour, Marie Webster, Jason R. Williams, Gabriela R. Rossi, Mario R. Mautino, Jonathan Lewis, Charles J. Link, George C. Prendergast. Cryo-immune vaccination (CIV) by SYNC-T therapy: Preclinical modeling of a novel device-multidrug immunotherapeutic approach to eradicate advanced metastatic cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(7_Suppl):Abstract nr LB355.