Abstract A22: Sensitive detection of mutant KRAS in colorectal tissue using the multiplex QuARTS™ assay

Abstract

Abstract Background: Colorectal cancer (CRC) is the second leading cause of cancer deaths in the United States, yet it is potentially the most treatable and preventable cancer with effective screening. Exact Sciences has developed a multi-biomarker CRC screening test that targets DNA methylation, DNA mutations, and hemoglobin in stool. The aim of this study was to evaluate the analytical accuracy of a novel assay for the detection of KRAS mutation sequences at Codons 12 and 13 in well-characterized colorectal tissues. Methodology: A multiplexed KRAS assay was designed utilizing QuARTS (Quantitative Allele-specific Real-time Target and Signal amplification), a highly sensitive technology that combines allele-specific DNA amplification with invasive cleavage chemistry to generate signal during each amplification cycle similar to real-time PCR. The assay, which detects seven KRAS mutations and the reference gene β-actin, was used to assess 87 colorectal tissue samples (52 CRCs, 16 adenomas ≥ 1cm, and 19 normal epithelia) as determined by Mayo Clinic Pathology. Samples were obtained by microdissection of fresh frozen tissue biopsies. DNA was extracted by Mayo Clinic using a standardized chloroform/phenol methodology. The genotypes of each sample were established using dye terminator dideoxy sequencing in both the forward and reverse orientations. Copy numbers of KRAS mutations and β-actin were determined by conventional comparison against standard curves. KRAS data are reported as percent mutation and calculated by dividing mutant copies by β-actin copies and multiplying by 100. Results: Based on sequencing data: the 52 CRC samples contained 22 KRAS mutations and 30 wild-type genotypes, the 16 adenomas ≥ 1cm contained 8 mutations and 8 wild-type genotypes, and the 19 normal tissues contained all wild-type genotypes. The QuARTS assay detected 100% of the KRAS mutations in the CRC and adenomas and provided excellent differentiation between wild-type and mutation, with the highest percent KRAS mutation of normal wild-type samples at 0.55% and the lowest percent mutation of KRAS positive samples at 8.34%. Based on this data, this assay has the potential to be more sensitive analytically than standard sequencing. Conclusion: The QuARTS assay detects KRAS mutations in tissue with high sensitivity and specificity. This assay method could provide an accurate and high throughput approach to detection of KRAS mutations in biospecimens for multiple clinical applications. Citation Information: Cancer Prev Res 2011;4(10 Suppl):A22.