Abstract
MicroRNAs (miRNAs) are potential clinical biomarkers for the detection of various diseases. However, their quantification has not been implemented in clinical practice given the inconsistencies in their variable recovery rate and accuracy of the results. Thus, we utilized a technique based on bioluminescent enzyme immunoassay (BLEIA) to perform fully automated miRNA quantification using magnetic particles conjugated with antibodies targeting DNA-RNA hybrids, biotinylated DNA probes specific to miRNAs, and firefly luciferase-labeled streptavidin. This method enabled direct use of diluted serum and automation of all processes within 1 hr. The results revealed a wide linear range between 10 fmol/L and 1 nmol/L, high sensitivity with a detection limit of 6.3 fmol/L or below, high specificity with a false positive rate under 2.4%, and high reproducibility in intra- and inter-experimental observations (under CV 10% and r = 0.9965, respectively). Furthermore, a significant correlation was revealed between quantitative reverse transcription-polymerase chain reaction and BLEIA assay for the quantification of synthetic miRNA (r = 0.9993) and endogenous miRNA in healthy serums (r = 0.8203), respectively. Overall, we developed a fully automated miRNA quantification method based on BLEIA, which can be adopted in a clinical setting. However, further studies are needed to assess its clinical performance.
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