Detection of point mutations in KRAS oncogene by real-time PCR-based genotyping assay in GIT diseases

Objectives: The determination of gene mutations is important for the diagnosis and prognosis of various gastrointestinal cancers. The aim of our study was to develop a new procedure for the analysis of KRAS gene mutation by application of the real-time PCR method. Background: The detection process requires discriminate trace amount of mutant allele in a large excess of wild-type DNA in various samples. Methods: The real-time PCR based technique using hybridization probes for five most frequently KRAS codon 12 mutations and WT specific peptide nucleic acid (PNA) was performed. Our multiplex detection system was tested in various DNA samples (tissue, bile, pancreatic juice) of patients with different diagnoses of gastrointestinal tract disease obtained by endoscopy and ERCP. Results: We designed and optimized the real-time PCR conditions and tested various amount of PNA in PCR reaction to suppress amplification of the wild-type DNA. We determined the interassay variability of the melting temperatures and the results of mutation testing were confirmed by DNA sequencing with the 100 % accuracy. Incidence of searched mutations was 67.5 % in cohort of 40 patients; for KRAS(G12D) it was in 44.4 %, KRAS(G12V) in 22.2 %, KRAS(G12S) in 14.8 %, KRAS(G12A) in 14.8 % and KRAS(G12C) in 3.8 %. The sensitivity of the assays is 1x10(-5). Conclusions: Advantages of this technique are rapidity, accuracy and it is generally easy to perform. This method can be adapted for synchronic detection of multiple mutations and after readjustment by other type mutation of KRAS gene may serve as useful clinical tool for analyzing point mutations in various clinical samples (Tab. 3, Fig. 3, Ref. 42). Full Text in PDF www.elis.sk.