Abstract
Activating mutations of EGFR are associated with sensitivity of non-small cell lung cancer (NSCLC ) to tyrosine kinase inhibitors (TKI). Liquid biopsy using circulating cell-free tumor DNA (cfDNA) is proposed in cases when formalin fixed paraffin embedded (FFPE) tumor tissue is not available and for monitoring of EGFR status. In the study we evaluated new qPC R assay for EGFR mutations in plasma cfDNA. Sensitivity of the assay was 1 % of the mutant allele for L858R, L861Q, S768I mutations and deletions in exon 19, and 5 % of the mutant allele for G719X or T790M mutations Before surgery, mutation was detected in plasma of 4 out of 7 patients (57 %) with mutant EGFR in FFPE tumor tissue. Mutations found in cfDNA completely matched those found in tumor tissue in 2 cases. In one case with G719X and S768I mutations in FFPE tissue, only S768I was found in cfDNA. In another case, T790M was detected in plasma in addition to L858R that was present in tumor tissue. No EGFR mutations were detected in plasma DNA from 12 healthy volunteers and 13 cases of NSCLC with wt EGFR suggesting 100 % specificity of the assay. Liquid biopsy detected EGFR mutations in cfDNA in 8 of 16 cases of NSCLC with mutant EGFR being under therapy with TKI. Among them, 7 cases had mutations in liquid biopsy that matched those in tumor tissue and another case had T790M in addition to L858R. In 3 cases increased mutant allele frequency was detected 212 months before clinical progression.
Highlights
next generation sequencing (NGS) can test a broad range of mutations with high sensitivity but the assay is expensive, technically demanding and has turnaround time of 12 weeks
In the study we evaluated new quantitative PCR (qPCR) assay for epidermal growth factor receptor (EGFR) mutations in plasma cell-free tumor DNA (cfDNA)
Sensitivity and specificity of qPCR test for EGFR mutations Analytical sensitivity and specificity of the assay was evaluated using human genomic DNA spiked with recombinant plasmid DNA as positive controls (PC) to have 1–5 % mutant allele for tested mutations (EGFR L858R, E746_A750delELREA, L861Q, G719S, T790M, S768I)
Summary
NGS can test a broad range of mutations with high sensitivity but the assay is expensive, technically demanding and has turnaround time of 12 weeks. Tests based on qPCR and dPCR detect only hot spot mutations but provide fast turnaround time of several days. DPCR has a high sensitivity and can detect mutations with mutant allele frequency (MAF) below 0,1 %. The aim of our study was to evaluate liquid biopsy for EGFR mutations using new test based on qPCR. We used limited multiplex PCR (mPCR) of regions in 1821 exons of EGFR with hot spots for mutations. After mPCR, amplicons of cfDNA were tested for EGFR mutations by qPCR. The developed assay was used for the monitoring of mutations in EGFR gene in cfDNA of patients with NSCLC treated with gefitinib or erlotinib
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