TY - JOUR T1 - Truncation and Motif Based Pan-Cancer Analysis Highlights Novel Tumor Suppressing Kinases JF - bioRxiv DO - 10.1101/254813 SP - 254813 AU - Andrew M. Hudson AU - Natalie L. Stephenson AU - Cynthia Li AU - Eleanor Trotter AU - Adam J. Fletcher AU - Gitta Katona AU - Patrycja Bieniasz-Krzywiec AU - Matthew Howell AU - Chris Wirth AU - Simon Furney AU - Crispin J. Miller AU - John Brognard Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/01/27/254813.abstract N2 - A major challenge in cancer genomics is identifying driver mutations from the large number of neutral passenger mutations within a given tumor. Here, we utilize motifs critical for kinase activity to functionally filter genomic data to identify driver mutations that would otherwise be lost within mutational noise. In the first step of our screen, we define a putative tumor suppressing kinome by identifying kinases with truncation mutations occurring within or before the kinase domain. We aligned these kinase sequences and, utilizing data from the Cancer Cell Line Encyclopedia and The Cancer Genome Atlas databases, identified amino acids that represent predicted hotspots for loss-of-function mutations. The functional consequences of new LOF mutations were validated and the top 15 hotspot LOF residues were used in a pan-cancer analysis to define the tumor-suppressing kinome. A ranked list revealed MAP2K7 as a candidate tumor suppressor in gastric cancer, despite the mutational frequency of MAP2K7 falling within the mutational noise for this cancer type. The majority of mutations in MAP2K7 abolished catalytic activity compared to the wild type kinase, consistent with a tumor suppressive role for MAP2K7 in gastric cancer. Furthermore, reactivation of the JNK pathway in gastric cancer cells harboring LOF mutations in MAP2K7 or JNK1 suppresses clonogenicity and growth in soft agar, demonstrating the functional importance of inactivating the JNK pathway in gastric cancer. In summary, our data highlights a broadly applicable strategy to identify functional cancer driver mutations leading us to define the JNK pathway as tumor suppressive in gastric cancer.Summary A unique computational pan-cancer analysis pinpoints novel tumor suppressing kinases, and highlights the power of functional genomics by defining the JNK pathway as tumor suppressive in gastric cancer. ER -