Abstract
Activating KRAS mutations are a key feature of pancreatic ductal adenocarcinoma (PDAC) and drive tumor initiation and progression. However, mutant KRAS by itself is weakly oncogenic. Defining the pathways that cooperate with mutant KRAS to induce tumorigenesis could identify prevention and treatment strategies. Analyzing organoids and murine and human pancreatic specimens, we found that the receptor tyrosine kinase FGFR2 was progressively upregulated in mutant KRAS-driven metaplasia, precancerous lesions, and classical PDAC. In genetic mouse models, FGFR2 inactivation impeded mutant KRAS-driven transformation of acinar cells by reducing proliferation and MAPK pathway activation. FGFR2 abrogation significantly delayed tumor formation and extended the survival of these mice. Furthermore, FGFR2 collaborated with EGFR, and dual blockade of these receptor signaling pathways significantly reduced mutant KRAS-induced precancerous lesion formation. Together, these data have uncovered a pivotal role for FGFR2 in the early phases of pancreatic tumorigenesis, paving the way for future therapeutic applications of FGFR2 inhibitors for pancreatic cancer interception.
Significance: FGFR2 inhibition reduces mutant KRAS signaling, which can impair mutant KRAS-expressing pancreatic cancer precursor lesions that are prevalent in the average healthy adult and delay pancreatic ductal adenocarcinoma progression.
RSS Feeds