MicroRNAs (miRNA) are short single-stranded RNA sequences that have a role in the post-transcriptional regulation of genes. The identification of tissue specific or enriched miRNAs has great potential as novel safety biomarkers. One longstanding goal is to associate the increase of miRNA in biofluids (e.g., plasma and urine) with tissue-specific damage. Next-generation sequencing (miR-seq) was used to analyze changes in miRNA profiles of tissue, plasma and urine samples of rats treated with either a nephrotoxicant (cisplatin) or one of two hepatotoxicants (acetaminophen [APAP] or carbon tetrachloride [CCL4 ]). Analyses with traditional serum chemistry and histopathology confirmed that toxicant-induced organ damage was specific. In animals treated with cisplatin, levels of five miRNAs were significantly altered in the kidney, 14 in plasma and six in urine. In APAP-treated animals, five miRNAs were altered in the liver, 74 in plasma and six in urine; for CCL4 the changes were five, 20 and 6, respectively. Cisplatin treatment caused an elevation of miR-378a in the urine, confirming the findings of other similar studies. There were 17 in common miRNAs elevated in the plasma after treatment with either APAP or CCL4 . Four of these (miR-122, -802, -31a and -365) are known to be enriched in the livers of rats. Interestingly, the increase of serum miR-802 in both hepatotoxicant treatments was comparable to that of the well-known liver damage marker miR-122. Taken together, comparative analysis of urine and plasma miRNAs demonstrated their utility as biomarkers of organ injury. Copyright © 2016 The Authors. Journal of Applied Toxicology published by John Wiley & Sons Ltd.
Keywords: bioinformatics; biomarker; hepatotoxicity; miR-seq; microRNA; nephrotoxicity.
Copyright © 2016 The Authors. Journal of Applied Toxicology published by John Wiley & Sons Ltd.