Abstract 2377: Low frequency KRAS mutations in colorectal cancer patients and the presence of multiple mutations in oncogenic drivers in non-small cell lung cancer patients

Abstract

Abstract Intratumor heterogeneity can confound the results of mutation analyses in oncodriver genes using traditional methods thereby challenging the application of targeted cancer therapy strategies for patients. Ultradeep sequencing can detect low frequency and expanded clonal mutations in primary tumors to better inform treatment decisions. KRAS coding exons in 61 treatment-naïve colorectal cancer (CRC) tumors and KRAS, EGFR, ALK, and MET in lung tumors from three Chinese non-small cell lung cancer (NSCLC) patients were sequenced using ultradeep sequencing methods. Forty-one percent of CRC patients (25/61) harbored mutations in the KRAS active domain, eight of which (13%) were not detected by Sanger sequencing. Three (of eight) had frequencies less than 10% and one patient harbored more than one mutation. Low frequency KRAS active (G12R) and EGFR kinase domain mutations (G719A) were identified in one NSCLC patient. A second NSCLC patient showed an EML4-ALK fusion with ALK, EGFR, and MET mutations. A third NSCLC patient harbored multiple low frequency mutations in KRAS, EGFR, and MET as well as ALK gene copy number increases. Within the same patient, multiple low frequency mutations occurred within a gene. A complex pattern of intrinsic low frequency driver mutations in well-known tumor oncogenes may exist prior to treatment, resulting in resistance to targeted therapies. Current targeted cancer therapies usually lack durability and demonstrate limited overall efficacy in patients. The types of low frequency concurrent mutations in candidate oncogenes presented here suggest necessary modifications both to methods for detection of these variants and to general treatment strategies. To date, Sanger sequencing has been effectively used for detection of treatment-relevant somatic mutations. However, in a heterogeneous mixture of cancerous and normal tissue, Sanger sequencing will likely fail to detect low frequency mutations. More sensitive and cost-effective sequencing methods are required to systematically assess the mutation status within cancer pathway genes or at the whole genome level. Furthermore, because patients often develop resistance to targeted therapy over time that is due to the preexistence of low frequency mutations in oncogenes, treatment strategies based on combination therapy might prove to be the most optimal treatment approach for cancer patients. Ultradeep sequencing can characterize intratumor heterogeneity and identify such mutations to ultimately affect treatment decisions. Citation Format: Christopher Morehouse, Liyan Jiang, Jiagi Huang, Wei Zhu, Susana Korolevich, Xiaoxiao Ge, Kim Lehmann, Zheng Lui, Christine Kiefer, Meggan Czapiga, Xinying Su, Philip Brohawn, Yi Gu, Brandon Higgs, Yihong Yao. Low frequency KRAS mutations in colorectal cancer patients and the presence of multiple mutations in oncogenic drivers in non-small cell lung cancer patients. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 2377. doi:10.1158/1538-7445.AM2014-2377