Abstract 4151: Development of a cancer-activated biologic imaging platform for early lung cancer diagnosis

Abstract Current modalities, such as LDCT and fluorodeoxyglucose positron emission tomography (FDG PET), for early lung cancer imaging, rely upon proxies resulting in poor specificity and/or sensitivity. They are also unreliable for discriminating benign versus malignant lesions resulting in the requirement of longitudinal analyses euphemistically called “watchful waiting”. Lung biopsies are marred by significant false negative rates and pose complications of collapsed lungs or bleeding in up to 22% of procedures and death rates up to 1%. To overcome these obstacles, Earli is developing a non-invasive, highly specific cancer-activated imaging platform that usurps dysregulated gene expression within malignancies to force only cancer cells to produce a synthetic biomarker that can be localized using PET imaging. EARLI-204 is a lipid nanoparticle that contains a DNA nanoplasmid comprised of a cancer-activated promoter driving selective expression of a functionally inactivated somatostatin receptor 2 (SSTR2fi) gene. Abrogation of internalization and signal transduction allows the safe use of SSTR2fi as an ectopically expressed PET reporter gene (PRG). Following administration, EARLI-204 transfects tumor and normal cells but transcriptional activation only within cancer cells results in selective cell-surface expression of SSTR2fi that can be imaged with FDA-approved SSTR2 PET tracers. H1299 human lung cancer cells engineered to express SSTR2 (H1299-SSTR2) revealed a discernable PET signal with as little as 31,000 engineered cells. Mixed cell titration studies using subcutaneous (SQ) tumors with H1299-SSTR2 and non-expressing H1299-wt cells suggest tumors with between 0.1% and 1% H1299-SSTR2 cells had a significant PET signal, compared to tumors with 100% H1299-wt. This result sets a benchmark transfection of ~1% to achieve a PET signal. Intratumoral (IT) dose titration of EARLI-204 revealed that 5 ug of EARLI-204 generates a significant PET signal. Consistent with the H1299-SSTR2 studies, IHC shows ~1% of tumor cells express the PRG at a 5 ug IT dose level. Furthermore, we measured 70 copies of EARLI-204 DNA per cell resulting in 22,629 SSTR2 mRNA copies/25 ng at a 5 ug IT dose level. IV dosing of EARLI-204 in SQ and intralung tumor models results in cancer-activated expression of SSTR2fi in both SQ and small (<4 mm) lung tumors with significantly increased (p < 0.05) PET signal. For lung tumors, analyses showed 1 copy of EARLI-204 DNA/cell resulting in 780 SSTR2 mRNA copies/25 ng. The results demonstrate an effective molecular imaging platform for drug discovery ranging from in vivo screening to building PK-PD-efficacy relationships and enabling human dose projection for the Earli PET localization drug. The benchmarks and findings established with this preclinical imaging pipeline are currently being evaluated in large animals such as dogs and pigs, and will be translated to humans in planned clinical trials. Citation Format: Mohammed Goryawala, Hung-Yu Henry Lee, Ling Tong, Trupti Patil, Alex Harwig, Chloe Xia, Suthara Ramachandran, Dariusz Wodziak, Dean Felsher, Tim Sproul, David Suhy. Development of a cancer-activated biologic imaging platform for early lung cancer diagnosis [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 4151.