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The ERBB network facilitates KRAS-driven lung tumorigenesis.

Björn KruspigTiziana MonteverdeSarah NeidlerAndreas HockEmma KerrColin NixonWilliam ClarkAnn HedleySarah LaingSeth B CoffeltJohn P C Le QuesneCraig DickKaren H VousdenCarla P MartinsDaniel J Murphy
Published in: Science translational medicine (2019)
KRAS is the most frequently mutated driver oncogene in human adenocarcinoma of the lung. There are presently no clinically proven strategies for treatment of KRAS-driven lung cancer. Activating mutations in KRAS are thought to confer independence from upstream signaling; however, recent data suggest that this independence may not be absolute. We show that initiation and progression of KRAS-driven lung tumors require input from ERBB family receptor tyrosine kinases (RTKs): Multiple ERBB RTKs are expressed and active from the earliest stages of KRAS-driven lung tumor development, and treatment with a multi-ERBB inhibitor suppresses formation of KRASG12D-driven lung tumors. We present evidence that ERBB activity amplifies signaling through the core RAS pathway, supporting proliferation of KRAS-mutant tumor cells in culture and progression to invasive disease in vivo. Brief pharmacological inhibition of the ERBB network enhances the therapeutic benefit of MEK (mitogen-activated protein kinase kinase) inhibition in an autochthonous tumor setting. Our data suggest that lung cancer patients with KRAS-driven disease may benefit from inclusion of multi-ERBB inhibitors in rationally designed treatment strategies.
Keyphrases
  • wild type
  • tyrosine kinase
  • signaling pathway
  • squamous cell carcinoma
  • endothelial cells
  • electronic health record
  • radiation therapy
  • machine learning
  • cell proliferation
  • locally advanced
  • pi k akt
  • data analysis