| Literature DB >> 29936254 |
David A Armstrong1, John A Dessaint1, Carol S Ringelberg2, Haley F Hazlett2, Louisa Howard2, Moemen A K Abdalla3, Roxanna L Barnaby4, Bruce A Stanton4, Mark A Cervinski5, Alix Ashare6.
Abstract
There are currently no standardized protocols for pre-analytical handling of urine to best preserve small RNA for miRNA profiling studies. miRNA is an attractive candidate as a potential biomarker because of the high level of stability in body fluids and its ability to be quantified on multiple high-throughput platforms. We present a comparison of small RNA recovery and stability in urine under alternate pre-analytical handling conditions and extend recommendations on what conditions optimize yield of miRNA from cell-free urine and urine extracellular vesicles (EVs). Using an affinity slurry for isolation of small RNA from urine, we found that urine samples held at room temperature (20°C) for up to 8 hours before processing yield the highest amounts of intact small RNAs from EVs. Some miRNA is lost from urine samples when held 2°C to 4°C and/or frozen before EV isolation, likely because of EV entrapment in uromodulin precipitates. However, we found that a simple 5-minute incubation of urine containing cold-induced precipitate at 37°C resolubilizes much of this precipitate and results in an increased recovery of EVs and miRNAs. Finally, small RNA integrity can be compromised when whole urine is held at 37°C for as little as 4 hours and is not conducive to efficient miRNA profiling.Mesh:
Substances:
Year: 2018 PMID: 29936254 PMCID: PMC6132192 DOI: 10.1016/j.jmoldx.2018.04.003
Source DB: PubMed Journal: J Mol Diagn ISSN: 1525-1578 Impact factor: 5.568