Abstract 2975: RAS precision medicine transatlantic partnership: Exploration of RAS and NF1 co-mutations in NSCLC

Abstract Background: RAS is the most commonly mutated oncogene in cancer, with KRAS mutated in ~30% of non-small cell lung cancer (NSCLC). RAS is a small GTPase cycling between GTP-bound ‘ON’ state and GDP-bound ‘OFF’ state. KRAS oncoproteins cycle between these states via hydrolysis and nucleotide exchange with the aid of GAPs, including NF1, and GEFs. Given the ’inactive state’ inhibition of recently developed KRAS G12C inhibitors on the GDP-bound state, this has highlighted the continued reliance of KRAS-mutants upon cycling, and the potential for mutants to retain dependence upon upstream influences, including NF1, for pathogenicity. Methods: 474 patients with advanced RAS- and/or NF1-mutant NSCLC were retrospectively identified from four tertiary cancer centers between 2008 -2021. DNA from archival FFPE samples, serum or combination underwent targeted NGS panels to identify mutations. Molecular, clinical, pathological and treatment outcome data were collected. Online resources including cBioPortal and Project Achilles were used to assess the functional role of any findings. Results: KRAS mutations were identified in 416/474 patients and NF1-mutations in 63/474 patients, eight of whom harbored two NF1-mutations. 24/63 (38%) of NF1-mutant cancers had a concomitant KRAS-mutation. We identified that KRAS G13D was more prevalent in NF1 mutant cancers vs. NF1 wildtype (NF1 MT: 6/24, 25%; vs. NF1 WT: 4/281, 1.4%; p<0.0001). KRAS G12C was identified in 11/24 (45.8%) of the double mutants vs. 109/282 (38.7%) of the NF1 WT patients (p=0.52). Those with G13D/NF1 co-mutation had a predicted pathogenic NF1-mutation in 5/6 (83%) of cases. Functional analysis of NF1 KO in G13D mutant lung cancer cell lines identified that NF1 was more essential in G13D mutant cell lines, with median Chronos score -0.26 G13D vs. -0.04 G12C (p=0.02). mRNA expression data identified a range of mRNA expression Z-scores relative to all samples for NF1-mutant cancers, ranging from lowest expression at -4.54 to +1.63, median -0.51. A higher mRNA expression was identified for NF1 missense mutations of unknown significance compared to truncating mutations with likely pathogenic, loss of function. Conclusions: These results highlight the co-mutational landscape of KRAS G13D with NF1 in NSCLC, suggesting functional importance conferred by NF1 loss, and highlight NF1 mutations as an additional pathogenic even when combined with KRAS mutation. The genomic landscape of KRAS and NF1 mutant NSCLC will be explored further through Whole Genome Sequencing data from the 100,000 Genomes Project (Genomics England). Citation Format: Helen M. Adderley, Mihaela Aldea, Jaqueline Aredo, Mathew Carter, Matthew Church, Pantelis Nicola, Jamie Weaver, Aisha Ghaus, Damien Vasseur, Matthew Krebs, Nicola Steele, Fiona Blackhall, Heather Wakelee, Benjamin Besse, Colin Lindsay. RAS precision medicine transatlantic partnership: Exploration of RAS and NF1 co-mutations in NSCLC [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2975.