Mutation of CMTR2 in Lung Adenocarcinoma Alters RNA Alternative Splicing and Reveals Therapeutic Vulnerabilities.
Shigenari Nukaga, Kouya Shiraishi, Kenta Hamabe, Akifumi Mochizuki, Yu Hamaguchi, Emi Ogawa, Nguyen Thai Le, Yoko Shimada, Hanako Ono, Hitomi Nishinakamura, Yoshihisa Kobayashi, Junko Hamamoto, Ayako Ui, Mitsugu Araki, Yukari Sagae
Abstract
Open AccessRNA splicing dysregulation has emerged as a hallmark of cancer and a promising therapeutic target; however, its full landscape in human solid cancer remains poorly characterized. To address this, we perform alternative splicing analyses using RNA-sequencing data from 751 lung adenocarcinoma samples from our cohort integrated with 519 samples from The Cancer Genome Atlas. Visualization of splicing patterns using t-distributed stochastic neighbor embedding reveals substantial inter-tumor heterogeneity driven by distinct molecular subtypes and histological differentiation. We identify a unique molecular subtype associated with inactivating mutations in CMTR2, which encodes Cap-specific mRNA (nucleoside-2'-O-)-methyltransferase 2. CMTR2 mutations are observed in 3.8% of cases and are predominantly truncating mutations, which form an isolated cluster within the splicing landscape. Intrinsic and CRISPR-Cas9-engineered CMTR2 mutations disrupt alternative splicing and sensitize cancer cells to sulfonamide-based RNA splicing modulators and immune checkpoint blockade therapy. Retrospective patient data confirm the increased sensitivity of CMTR2-deficient tumors to immune checkpoint blockade therapy. These findings uncover a previously unrecognized RNA splicing deficiency in human cancers and define a molecular subtype of lung adenocarcinoma driven by RNA splicing dysregulation, suggesting targets for therapeutic intervention in lung cancer.