The missense mutation EGFR L858R implies increased sensitivity to EGFR tyrosine kinase inhibitor (TKIs) therapy, despite a significant non-response rate. Currently, detection of EGFR L858R mutation is mostly DNA based, therefore, the allele-specific expression level of the mutated gene and its clinical relevance is hidden. Based on the extendable blocking probes and hot-start protocol for reverse transcription, we have developed and validated a novel one-step realtime RT-PCR assay that enables detection of EGFR L858R mutation at the mRNA level. This RNA-based assay was able to detect the EGFR L858R mutation in a 10,000-fold excess of its wildtype counterpart, indicating an analytical sensitivity of 0.01%. In comparison to the reference DNA-based assay, the RNA-based assay further detected the EGFR L858R mutation in significantly additional formalin-fixed paraffin-embedded (FFPE) samples (19.2% vs 15.0%). Interestingly, our data showed that the relative mRNA levels of EGFR L858R mutation varied greatly in tumor tissues (∼4 logs); and the circulating mRNA of EGFR L858R mutation was detectable in plasma of NSCLC patients. This novel RNA-based PCR assay provides a simple and ultrasensitive tool for detection of EGFR L858R mutation at the mRNA level as a new class of biomarkers.
Keywords: Allele-specific gene expression; Cancer biomarker; Circulating mRNA; EGFR L858R mutation; Liquid biopsy; RNA-based mutation analysis.
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