Multiplexed and accurate quantification strategy for miRNA based on specific terminal-mediated PCR with equivalent amplification

MicroRNAs (miRNAs) are recognized as potential biomarkers for the early diagnosis and prognosis of different diseases. Multiplexed and accurate miRNA quantification methods with equivalent detection efficiency are particularly crucial due to their complex biological functions and lack of a unified internal reference gene. Here, a unique multiplexed miRNA detection method, named Specific Terminal-Mediated miRNA PCR (STEM-Mi-PCR), was developed. It mainly includes a linear reverse transcription step using tailored-designed target specific capture primers, followed by an exponential amplification process using two universal primers to execute the multiplex assay. For proof of concept, four miRNAs were used as models to develop a multiplexed detection assay within one tube simultaneously and then evaluate the performance of the established STEM-Mi-PCR. The sensitivity of the 4-plexed assay was approximately 100 aM with an equivalent amplification efficiency (95.67 +/- 8.58%), and had no cross-reactivity each other with high specificity. Quantification of different miRNAs in twenty patients' tissues shown variation from approximately pM to fM concentration level, demonstrating the possibility of practical application of the established method. Moreover, this method was extraordinarily capable of single nucleotide mutation discrimination in different let-7 family members with no more than 0.7% nonspecific detection signal. Hence, the STEM-Mi-PCR we proposed here paves an easy and promising way for miRNA profiling in future clinical applications.

Automated summary

STEM-Mi-PCR is a multiplexed miRNA detection method that allows for simultaneous detection of multiple miRNAs with high sensitivity and specificity. It can also discriminate single nucleotide mutations in miRNAs. This method holds promise for future clinical applications in miRNA profiling.