Abstract

Abstract Background: Cell-free (cf) DNA in the plasma of cancer patients offers an easily obtainable, low-risk, inexpensive, and repeatedly available source of biologic material for mutation analysis and monitoring of molecular changes throughout cancer therapy. Methods: DNA in plasma from patients with advanced cancers who progressed on systemic therapy was tested for BRAF V600 and KRAS G12 and G13 mutations using the ICE COLD-PCR platform. ICE COLD-PCR, “Improved and Complete Enrichment COamplification at Lower Denaturation,” selectively amplifies mutant DNA by exploiting differences in denaturation temperatures between mutant DNA duplexes and normal “wild-type” DNA duplexes. KRAS Exon 2 and BRAF Exon 15 ICE COLD-PCR was performed on plasma samples. Amplicons were analyzed using Sanger sequencing and results were compared to the mutation status of archival primary or metastatic tumor tissue as determined in a CLIA-certified laboratory during routine clinical care. Results: Plasma samples from 77 patients with advanced cancers and known tumor tissue BRAF and/or KRAS mutation status (colorectal cancer, n=38; melanoma, n=17; non-small cell lung cancer, n=7; other cancers, n=15) were obtained before treatment and, if possible, sequentially during therapy and tested for BRAF (42), KRAS (34) or BRAF and KRAS (1) mutations in cfDNA. BRAF mutations were detected in 93% (40/43) of archival tumor samples compared to 70% (30/43) of plasma cfDNA samples (agreement 77%). In addition, 20 patients treated with systemic therapy had serial plasma samples collected and the change in relative abundance of BRAF-mutant compared to wild-type cfDNA corresponded with the clinical course of 15 patients and was discrepant for 1 patient; in 5 patients no BRAF mutated cfDNA was detected at any time point. KRAS mutations were detected in 83% (29/35) of archival tumor samples compared to 74% (26/35) of plasma cfDNA samples (agreement 80%). In addition, 12 patients treated with systemic therapy had serial plasma collected and the change in relative abundance of KRAS-mutant compared to wild-type cfDNA corresponded with clinical course in 10 patients; in 2 patients no KRAS mutated cfDNA was detected at any time point. Conclusions: Detection of BRAF and KRAS mutations in cfDNA can provide a fast and noninvasive alternative to mutation testing in tumor tissue with a potential to be used for monitoring response to cancer therapy. Citation Format: Filip Janku, Ben Legendre, Katherine Richardson, Gerald S. Falchook, Aung Naing, Veronica R. Holley, Siqing Fu, David S. Hong, Sarina A. Piha-Paul, Jennifer J. Wheler, Ralph G. Zinner, Vivek Subbiah, Apostolia M. Tsimberidou, Daniel D. Karp, Vanda M. Stepanek, Goran Cabrilo, Rajyalakshmi Luthra, Funda Meric-Bernstam, Agop Y. Bedikian, Bryan K. Kee, Cathy Eng, Michael J. Overman, Kevin B. Kim, Amy Kruempel, Jaclyn Pope, Courtney Cubrich, Grant Wu, Marcia Lewis, Razelle Kurzrock. BRAF and KRAS mutation testing in plasma cell-free DNA with ICE COLD-PCR in patients with advanced cancers. [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 5607. doi:10.1158/1538-7445.AM2014-5607

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