TY - JOUR
T1 - Systems Analysis of miRNA Biomarkers to Inform Drug Safety
AU - Schofield, Amy L.
AU - Brown, Joseph P.
AU - Brown, Jack
AU - Wilczynska, Ania
AU - Bell, Catherine
AU - Glaab, Warren E.
AU - Hackl, Matthias
AU - Howell, Lawrence
AU - Lee, Stephen
AU - Dear, James W
AU - Remes, Mika
AU - Reeves, Paul
AU - Zhang, Eunice
AU - Allmer, Jens
AU - Norrish, Alan
AU - Falciani, Francesco
AU - Takeshita, Louise Y.
AU - Forootan, Shiva Seyed
AU - Sutton, Robert
AU - Park , B. Kevin
AU - Goldring, Chris
PY - 2021/9/12
Y1 - 2021/9/12
N2 - microRNAs (miRNAs or miRs) are short non-coding RNA molecules which have been shown to be dysregulated and released into the extracellular milieu as a result of many drug- and non-drug-induced pathologies in different organ systems. Consequently, circulating miRs have been proposed as useful biomarkers of many disease states, including drug-induced tissue injury. miRs have shown potential to support or even replace the existing traditional biomarkers of drug-induced toxicity in terms of sensitivity and specificity, and there is some evidence for their improved diagnostic and prognostic value. However, several pre-analytical and analytical challenges, mainly associated with assay standardization, require solutions before circulating miRs can be successfully translated into the clinic. This review will consider the value and potential for use of circulating miRs in drug safety assessment and describe a systems approach to the analysis of the miRNAome in the discovery setting, as well as highlighting standardization issues that at this stage prevent their clinical use as biomarkers. Highlighting these challenges will hopefully drive future research into finding appropriate solutions, and eventually circulating miRs may be translated to the clinic where their undoubted biomarker potential can be used to benefit patients in rapid, easy to use, point-of-care test systems.
AB - microRNAs (miRNAs or miRs) are short non-coding RNA molecules which have been shown to be dysregulated and released into the extracellular milieu as a result of many drug- and non-drug-induced pathologies in different organ systems. Consequently, circulating miRs have been proposed as useful biomarkers of many disease states, including drug-induced tissue injury. miRs have shown potential to support or even replace the existing traditional biomarkers of drug-induced toxicity in terms of sensitivity and specificity, and there is some evidence for their improved diagnostic and prognostic value. However, several pre-analytical and analytical challenges, mainly associated with assay standardization, require solutions before circulating miRs can be successfully translated into the clinic. This review will consider the value and potential for use of circulating miRs in drug safety assessment and describe a systems approach to the analysis of the miRNAome in the discovery setting, as well as highlighting standardization issues that at this stage prevent their clinical use as biomarkers. Highlighting these challenges will hopefully drive future research into finding appropriate solutions, and eventually circulating miRs may be translated to the clinic where their undoubted biomarker potential can be used to benefit patients in rapid, easy to use, point-of-care test systems.
U2 - 10.1007/s00204-021-03150-9
DO - 10.1007/s00204-021-03150-9
M3 - Article
SN - 0340-5761
JO - Archives of toxicology
JF - Archives of toxicology
ER -