Background: Epstein-Barr virus (EBV) infects 90% of the world population, commonly causing self-limiting infectious mononucleosis or rarely inciting a range of malignancies. EBV microRNAs (miRNAs) were discovered by sequencing libraries of small RNAs generated from several EBV-positive cell lines. Little is known about their roles, but their high stability and easy quantification make these molecules potential biomarkers.
Objectives: In this study a stem-loop MGB real-time RT-PCR has been used to detect and quantify miR-BART2-5p, miR-BART15 and miR-BART22 EBV miRNAs levels.
Study designs: The profiles of EBV miRNAs levels were evaluated in 51 serum samples of 37 pediatric liver transplant patients subdivided in 3 study groups: EBV seronegative, EBV seropositive and PCR negative, EBV seropositive and PCR positive.
Results: miR-BART22 serum levels in patients with positive EBV PCR were significantly higher than those in patients with negative EBV PCR (p=0.0005). On the contrary, miR-BART2-5p and miR-BART15 did not exhibit significant difference in positive and negative EBV PCR patients (p=0.5511 and p=0.3523, respectively).
Conclusion: This study described a method for quantitative detection of miR-BART 22, miR-BART2-5p and miR-BART15 EBV miRNAs in liver transplanted patients, and suggests the use of miR-BART22 as a potential biomarker for EBV reactivation.
Keywords: EBV; MGB; Stem-loop real time PCR; miRNA.
Copyright © 2017 Elsevier B.V. All rights reserved.