OBJECTIVES: Pancreatic cancer is one of the most intractable of cancers. However, the comprehensive view of somatic mutations in this tumor is far from clear. The tyrosine kinase (TK) gene family, which encodes important regulators of various signal transduction pathways, is one of the most frequently altered gene families in human cancer. METHODS: To clarify the somatic mutation profile of TKs in pancreatic cancer, we performed a systematic screening of mutations in the kinase domains of all human TK genes (636 exons of 90 genes in total) in 11 pancreatic cancer cell lines and 29 microdissected primary tumors. RESULTS: We identified 15 nonsynonymous alterations that included 9 DNA alterations in cell lines and 6 somatic mutations in primary tumors. In particular, we identified the previously reported pathogenic mutation of NTRK3 in a KRAS/BRAF wild-type tumor and 2 somatic mutations in the Src family of kinases (YES1 and LYN) that would be expected to cause structural changes. CONCLUSIONS: Our genome-wide resequencing approach revealed novel oncogenic pathways in pancreatic cancers.
OBJECTIVES:Pancreatic cancer is one of the most intractable of cancers. However, the comprehensive view of somatic mutations in this tumor is far from clear. The tyrosine kinase (TK) gene family, which encodes important regulators of various signal transduction pathways, is one of the most frequently altered gene families in humancancer. METHODS: To clarify the somatic mutation profile of TKs in pancreatic cancer, we performed a systematic screening of mutations in the kinase domains of all human TK genes (636 exons of 90 genes in total) in 11 pancreatic cancer cell lines and 29 microdissected primary tumors. RESULTS: We identified 15 nonsynonymous alterations that included 9 DNA alterations in cell lines and 6 somatic mutations in primary tumors. In particular, we identified the previously reported pathogenic mutation of NTRK3 in a KRAS/BRAF wild-type tumor and 2 somatic mutations in the Src family of kinases (YES1 and LYN) that would be expected to cause structural changes. CONCLUSIONS: Our genome-wide resequencing approach revealed novel oncogenic pathways in pancreatic cancers.
Authors: Michael Röring; Ricarda Herr; Gina J Fiala; Katharina Heilmann; Sandra Braun; Anja E Eisenhardt; Sebastian Halbach; David Capper; Andreas von Deimling; Wolfgang W Schamel; Darren N Saunders; Tilman Brummer Journal: EMBO J Date: 2012-04-17 Impact factor: 11.598
Authors: Stephanie Cardarella; Taylor M Ortiz; Victoria A Joshi; Mohit Butaney; David M Jackman; David J Kwiatkowski; Beow Y Yeap; Pasi A Jänne; Neal I Lindeman; Bruce E Johnson Journal: J Thorac Oncol Date: 2012-12 Impact factor: 15.609