Analysis of correlation between oncogene mutation and response to chemotherapy in all RAS wild type metastatic colorectal cancer, using next-generation sequencing technology.

553 Background: Targeted therapies of monoclonal antibodies have changed the treatment of metastatic colorectal cancer (mCRC). A target therapy with chemotherapy regimen for mCRC was decided by KRAS mutation status (KRAS exon2 [codon12, codon13]). Currently, there are many reports suggesting that in addition to analysis of KRAS mutation status, the evaluation of EGFR gene copy number, levels of EGFR ligands, BRAF, NRAS, PIK3CA mutations could be helpful to have a more accurate selection of patients who may have a benefit from anti-EGFR targeted drugs. Methods: Mutation status of 50 oncogenes were analysed in 35 mCRC patients with all RAS wild type, using next-generation sequencing technology. The response for chemotherapy was classified response group (R group) and non-response group (N group) by RECIST. The relation between mutation status of 50 oncogenes and the response for chemotherapy was assessed. Results: There were 25 oncogene mutations in the 50 genes. Driver mutation associated with oncogenic mutation deeply were 5 oncogenes, which were PIK3CA, AKT1, BRAF, PDGFRA and TP53. Only BRAF mutation was significantly associated with poor chemo response in the 5 oncogenes. A case which had two driver mutations was only in the N group. One of the two driver mutations was tumor suppressor gene, TP53. Conclusions: BRAF mutation and the number of driver mutations are key predictors of chemosensitivity in the mCRC cases with all RAS wild type.