Abstract

Abstract The ability to more faithfully mimic the tumor microenvironment (TME) of cancer patients offers a wide range of possibilities for non-clinical evaluation of anti-cancer therapeutics, including guidance for patient selection, dose, and combinations. We have established a patient-derived tumor explant (PDE) model to monitor immune activation within a structurally preserved TME, following ex vivo incubation with immune check point inhibitors (ICI). When testing anti-PD-1 agents, such as dostarlimab and pembrolizumab, in a cohort of NSCLC explants from stage I-III treatment-naïve patients, we observed that approximately half demonstrate release of inflammatory cytokines after two days incubation. Interestingly, responsive tumors presented with a high level of PD-L1 expression (high TPS), had elevated TMB, and were highly infiltrated by CD8+ T cells at baseline, in line with tumor baseline characteristics predictive of clinical response to anti-PD-1. When testing a dose-range of dostarlimab and pembrolizumab comparable potencies were observed when measuring cytokine release after treatment of the NSCLC explants. In conclusion, we describe here an in vitro patient-derived NSCLC model that mirrors the heterogeneity of patients’ response for anti-PD-1 agents observed in clinical settings, representing a valuable tool for comparative analysis of novel ICI assets and combinations, such as the CD226 axis members. Importantly, this system is also amenable to extensive multi-omics and genetics-based analyses, providing the opportunity to better identify predictive or pharmacodynamic characteristics within patient tumors. Citation Format: Jessica Perrin, Frank Wippich, Valeriia Sherina, Dmytro Dvornikov, Katharina Lupar, Murad M. Melhem, Patrick Hanafin, Jeremy Waight, Jong Yu, Sapna Yadavilli, Daniel Poeckel, Giovanna Bergamini. Dostarlimab shows dose-dependent immune activation of the tumor microenvironment in a patient-derived NSCLC explant model similar to pembrolizumab [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 6647.

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