Genetic Screens Identify a Context-Specific PI3K/p27Kip1 Node Driving Extrahepatic Biliary Cancer.
Chiara FalcomatàStefanie BärthelAngelika UlrichSandra DierschChristian VeltkampLena RadFabio BonioloMyriam SolarKatja SteigerBarbara SeidlerMagdalena ZukowskaJoanna MadejMingsong WangRupert ÖllingerRoman MareschMaxim BarenboimStefan EserMarkus TschurtschenthalerArianeb MehrabiStephanie RoesslerBenjamin GoeppertAlexander KindAngelika SchniekeMaria S RoblesAllan BradleyRoland M SchmidMarc Schmidt-SupprianMaximilian ReichertWilko WeichertOwen James SansomJennifer P MortonRoland RadGünter SchneiderDieter SaurPublished in: Cancer discovery (2021)
Biliary tract cancer ranks among the most lethal human malignancies, representing an unmet clinical need. Its abysmal prognosis is tied to an increasing incidence and a fundamental lack of mechanistic knowledge regarding the molecular basis of the disease. Here, we show that the Pdx1-positive extrahepatic biliary epithelium is highly susceptible toward transformation by activated PIK3CAH1047R but refractory to oncogenic KrasG12D. Using genome-wide transposon screens and genetic loss-of-function experiments, we discover context-dependent genetic interactions that drive extrahepatic cholangiocarcinoma (ECC) and show that PI3K signaling output strength and repression of the tumor suppressor p27Kip1 are critical context-specific determinants of tumor formation. This contrasts with the pancreas, where oncogenic Kras in concert with p53 loss is a key cancer driver. Notably, inactivation of p27Kip1 permits KrasG12D-driven ECC development. These studies provide a mechanistic link between PI3K signaling, tissue-specific tumor suppressor barriers, and ECC pathogenesis, and present a novel genetic model of autochthonous ECC and genes driving this highly lethal tumor subtype. SIGNIFICANCE: We used the first genetically engineered mouse model for extrahepatic bile duct carcinoma to identify cancer genes by genome-wide transposon-based mutagenesis screening. Thereby, we show that PI3K signaling output strength and p27Kip1 function are critical determinants for context-specific ECC formation.