Abstract C104: Targeted epigenomic inhibition of MYC enhances responses to immune checkpoint and EGFR inhibitors in preclinical models of NSCLC

Abstract

Abstract Aberrant expression of the transcription factor MYC is found in most cancers including non-small cell lung cancer (NSCLC) and has critical roles in a wide range of oncogenic processes including immune evasion and EGFR inhibitor resistance. Despite MYC’s therapeutic attractiveness, potent inhibitors of MYC activity have been elusive, due to its intrinsically disordered protein structure and tightly autoregulated expression. We have developed NSCLC-specific programmable epigenomic mRNA therapy, termed a MYC Omega epigenomic controller (NSCLC MYC-OEC) that is designed to target the insulated genomic domain of MYC. We have previously shown that NSCLC MYC-OEC effectively downregulates MYC expression pre-transcriptionally and have demonstrated that NSCLC MYC-OEC inhibits NSCLC patient-derived organoid viability in vitro and abrogates xenograft tumor growth in vivo. To identify combination treatments with NSCLC MYC-OEC, we retrospectively evaluated baseline MYC expression and real-world progression-free survival (PFS) in a cohort of 283 NSCLC patients treated with pembrolizumab, an anti-PD1 monoclonal antibody. This analysis revealed that NSCLC patients with MYC-overexpressing tumors exhibited shorter PFS when treated with pembrolizumab. Moreover, analysis of PD1 or PD-L1 transcript levels in tumors from 13,230 lung adenocarcinoma patients revealed a significant positive correlation between PD1 or PD-L1 and MYC mRNA levels, consistent with a role for MYC in regulation of the immune response. In vivo evaluation of NSCLC MYC-OEC activity and immune checkpoint immunotherapy (ICI) treatment of preclinical Lewis lung carcinoma syngeneic tumor models demonstrated that the combination of NSCLC MYC-OEC with anti-PD-L1 antibody enhanced inhibition of tumor growth and prolonged survival over administration when compared to either NSCLC MYC-OEC or anti-PD-L1 antibody monotherapy. Retrospective analysis of a cohort of 301 NSCLC patients also showed that patients with MYC-overexpressing tumors exhibited significantly shorter PFS when treated with osimertinib, a third generation EGFR inhibitor. To further understand this, we investigated the effects of NSCLC MYC-OEC and osimertinib treatment alone or in combination in EGFR mutant cells, H1975 and PC9. While NSCLC MYC-OEC and osimertinib monotherapy treatments resulted in downregulation of MYC protein expression in both cell lines, combination treatment led to a significantly greater decrease in MYC expression. Furthermore, the combination synergistically reduced H1975 and PC9 cell viability in vitro and led to a significantly greater inhibition of H1975 xenograft growth relative to each single agent in vivo. Together, these data provide preclinical proof-of-concept in NSCLC for development of OEC-mediated pre-transcriptional epigenomic inhibition of MYC expression in combination with immune checkpoint and EGFR inhibitors. Furthermore, these findings suggest that NSCLC MYC-OEC combination with ICI or EGFR-targeted therapy may improve patient outcomes. Citation Format: Defne Yarar, Eugine Lee, Padraich Flahardy, Cameron Vergato, Graeme Hodgson, Thomas McCauley. Targeted epigenomic inhibition of MYC enhances responses to immune checkpoint and EGFR inhibitors in preclinical models of NSCLC [abstract]. In: Proceedings of the AACR-NCI-EORTC Virtual International Conference on Molecular Targets and Cancer Therapeutics; 2023 Oct 11-15; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2023;22(12 Suppl):Abstract nr C104.