Genomic landscape of non-small cell lung cancer (NSCLC) with methylthioadenosine phosphorylase (MTAP) deletion.

Abstract

9116 Background: NSCLC remains a major cause of cancer-associated mortality despite major advancements in treatments. In addition to immune checkpoint inhibitors (ICPI), new strategies for clinically advanced NSCLC now include the development of new synthetic lethality targets focused on protein arginine methyl transferases such as PRMT5 that exploit the impact of tumor cell genomic loss of MTAP. Methods: 29,379 advanced/metastatic NSCLC cases underwent hybrid-capture based comprehensive genomic profiling to evaluate all classes of genomic alterations (GA). Tumor mutational burden (TMB) was determined on up to 1.1 Mb of sequenced DNA and microsatellite instability (MSI) was determined on up to 114 loci. PD-L1 tumor cell expression was determined by DAKO 22C3 immunohistochemistry (IHC); low positive was a tumor proportion score (TPS) 1-49% and high positive was a TPS ≥50%. Results: 3,928 NSCLC exhibited MTAP homozygous loss. Cases had the following subtypes: adenocarcinoma (59%), squamous cell ca (22%), NSCLC NOS (16%), and large cell neuroendocrine, sarcomatoid, adenosquamous ca (all 1%). GA/tumor were similar when CDKN2A/B losses associated with 9p21 co-deletion with MTAP loss are excluded. Significant differences in currently targetable GA included KRAS G12C higher in MTAP-intact NSCLC (P =.0003) and EGFR short variant mutations higher in MTAP-deleted NSCLC (P <.0001). MTAP-intact NSCLC had higher frequencies of GAs in TP53 (P <.0001) and RB1 and a lower frequency of SMARCA4 (P <.0001). GAs frequencies in ERBB2, MET, ALK, ROS1 and NTRK1 were similar. Biomarkers for potential ICPI efficacy were higher in MTAP-intact including TMB ≥10mut/Mb (P =.0002) and low and high PD-L1 IHC staining (P =.01). Biomarkers potentially predictive of ICPI resistance ( STK11 and KEAP1) were similar in both groups. Conclusions: MTAP loss occurs in 13% of NSCLC, supporting the development of novel targeted therapies designed to exploit PRMT5 hyper-dependence in these tumors. MTAP loss in NSCLC is accompanied by differences in targeted and ICPI options for these patients which may impact future combination strategies. Further study of anti-PRMT5 drugs that are enabled by MTAP loss in NSCLC appears warranted.[Table: see text]