Abstract 5799: Novel nanoparticle technology targets the delivery of polyIC to EGFR overexpressing cancers and induces a multimodal anti-tumor response

Abstract

Abstract Aberrant activation of epidermal growth factor receptor (EGFR) signaling pathways is associated with tumor growth and progression. EGFR overexpression occurs in various types of solid cancers and correlates with poor outcome. Unfortunately, the clinical benefit from EGFR-targeted therapies is usually short-lived, due to the development of resistance. TargImmune has developed first-in-class Targeted Apoptotic Immunomodulators (TAIMs), which harness the body’s anti-viral responses to treat solid tumors. Our novel nanoparticle platform technology, Ta:RNA , selectively delivers synthetic dsRNA, polyinosinic:polycytidylic acid (polyIC) to tumor cells that overexpress a target receptor. PolyIC and other pattern recognition receptor (PRR) agonists have been used as adjuvants or for intratumoral administration but have limited efficacy as single agents. TargImmune’s platform allows systemic delivery of dsRNA, tailoring the nanoparticles to various solid cancers by simply changing the targeting moiety. Here we describe EGFR-Ta:RNA, which is targeted to tumors that overexpress EGFR. EGFR-Ta:RNA does not inhibit EGFR per se, and therefore activation of alternative or downstream oncogenes is not expected to cause resistance. The mechanism of action of EGFR-targeted Ta:RNA nanoparticles was extensively studied in vitro and in vivo, using confocal imaging, large-scale RNA sequencing studies, Western blot analysis and ELISA assays. In vitro, EGFR-Ta:RNA potency and selectivity were established by comparing cells with high receptor and low receptor expression. Imaging studies showed that the nanoparticles are internalized selectively into EGFR-overexpressing cancer cells by receptor-mediated endocytosis. RNAseq studies revealed: (i) a common transcriptional signature in EGFR-Ta:RNA-treated tumours and cancer cells; (ii) enrichment in pathways related to anti-viral response, inflammation, type I interferon signaling, and NFΚB signaling; (iii) enrichment in genes coding for cytokines. Western blot analysis and ELISA assays confirmed that the mechanism of action of EGFR-Ta:RNA is mediated via the induction of PRR downstream signaling, which results in cytokine secretion, apoptosis and immune cell activation. The efficacy of EGFR-Ta:RNA was demonstrated in multiple animal models, including both xenograft and immunocompetent models. The pharmacodynamic effect, exemplified by target engagement and activation of PRR signaling in tumors, was verified in vivo. In conclusion, TargImmune’s EGFR-Ta:RNA nanoparticles deliver polyIC in a tumor-targeted manner to evoke PRR signaling, inducing targeted tumor cell apoptosis as well as immune cell recruitment and activation against the heterogenous tumor. EGFR-Ta:RNA represents a novel, multimodal treatment approach for EGFR overexpressing cancers. Citation Format: Derrick Broka, Caroline De Feyter, Shoshana Klein, Meera Saxena, Joerg Schreiber, Alexei Shir, Michal Skowicki, Yaakov Benenson, Alexander Levitzki, Cornelia G. Palivan, Esteban Pombo-Villar, Babette Schade, Maya Zigler. Novel nanoparticle technology targets the delivery of polyIC to EGFR overexpressing cancers and induces a multimodal anti-tumor response [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 5799.