Abstract
Abstract KRASG12C inhibitors such as sotorasib and adagrasib have shown efficacy in patients with non-small cell lung cancer (NSCLC). However, a substantial proportion of patients do not respond. Therefore, there is a clear need for predictive biomarkers to guide treatment. The proximity ligation assay (PLA) is an immunofluorescent-based approach utilized to analyze endogenous protein-protein interactions. The method allows for the assessment of signaling-associated protein complexes, which can serve as potential targets for specific inhibitors. In particular, KRASG12C inhibitors can disrupt these complexes by interfering with the interaction between RAS and its effector RAF. By providing insights into the presence of these protein complexes, PLA offers a predictive readout for inhibitor sensitivity. We thus conducted a preclinical study to evaluate if a RAS-CRAF PLA could inform on the presence of RAS-RAF protein complexes and predict the response to KRASG12C inhibitors. To assess the specificity of the panRAS-CRAF PLA, we employed RNA interference in a KRASG12C-mutant H358 NSCLC cell line, wherein knockdown of either panRAS or CRAF resulted in a reduction in the panRAS-CRAF PLA signal. Pharmacological inhibition of RAS-RAF interaction with sotorasib also reduced the panRAS-CRAF PLA signal. We next performed panRAS-CRAF PLA in a panel of 11 KRASG12C-mutant NSCLC cell lines, revealing a higher number of panRAS-CRAF PLA spots in H358, LU65, and HCC1171. To further investigate the RAS-RAF interaction, we assessed the abundance of CRAF-bound RAS-GTP by quantifying the binding of RAS-GTP to the RAS-binding domain of CRAF. H358, LU65, and HCC1171 exhibited the highest levels of RAS-GTP among the 11 cell lines. We observed a strong correlation between the number of panRAS-CRAF PLA foci and the levels of CRAF-bound RAS-GTP (r = 0.87, P = 0.0002). These results indicated that the enhanced level of RAS-GTP for CRAF proteins facilitates the formation of RAS-CRAF complexes, thereby augmenting the panRAS-CRAF PLA signals. We then evaluated the in vitro antitumor activity of sotorasib across the G12C-mutated cell lines and found that the 50% inhibitory concentration values of sotorasib for H358, LU65, and HCC1171 were below 30 nmol/L. The panRAS-CRAF PLA was strongly associated with the sensitivity to sotorasib (r = 0.81, P = 0.002). We subsequently assessed the association of panRAS-CRAF PLA with efficacy of adagrasib in a patient-derived xenograft (PDX) cohort. PanRAS-CRAF PLA was assessed on sections of formalin-fixed paraffin-embedded tumors derived from vehicle-treated control groups at the end of efficacy studies in 18 NSCLC PDX models. Our findings revealed a significant association between high panRAS-CRAF PLA signal and increased sensitivity to adagrasib (r = 0.61, P = 0.008). Our results suggest that panRAS-CRAF PLA may serve as a predictive marker to identify patients who could derive optimal benefit from KRASG12C inhibitors, and may direct combination therapy approaches to those patients less likely to benefit from single-agent therapy. Citation Format: Ryoji Kato, Hitendra S. Solanki, Denis Imbody, Anurima Majumder, Yaakov Stern, Liznair Bridenstine, Harika Gundlapalli, Ida Aronchik, Joseph Johnson, Eric B. Haura. High RAS-RAF binding as assessed via proximity ligation assay is associated with sensitivity to KRASG12C inhibitors in 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 B006.
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