MicroRNAs are early indicators and useful tools to detect drug-induced toxicity. Incorporation of miRNA profiling into the drug safety testing process will complement currently used techniques and may substantially enhance drug safety.
While disease-specific biomarkers have found their application in clinical drug development, in particular in oncology, and have been accepted by health authorities in a number of cases, biomarkers for organ toxicity were only very recently endorsed by FDA and European Medicines Agency (EMEA) for use in preclinical toxicity studies .
In the past decades, several well-known clinical pathology parameters associated with toxicity of major organs (liver, kidney, heart) were identified and also routinely applied. On a molecular level, most of these clinical chemistry parameters are enzyme activities or endogenous metabolites which are quantified in serum and/or urine by biochemical methods. These traditional clinical pathology parameters have been recognized to have major drawbacks in terms of specificity and sensitivity and in general often show a limited diagnostic and prognostic performance for early detection of organ injury on toxic insults. Target organ and tissue specificity is the major limitation for most of the traditional serum enzymes used for monitoring of organ integrity and/or function during drug safety assessment .
Circulating miRNAs are extremely promising biomarker candidates for toxicological studies, where they are used as biomarkers of drug-, or chemical-induced tissue injury for safety assessment, because
Circulating microRNAs can be quantified in serum as well as plasma samples using quantitative PCR. This gold-standard method is reliable and can undergo analytical validation. However, in order to successfully obtain robust results, a well-characterized and standardized protocol must be used. TAmiRNA has developed a robust workflow and offers qPCR kits and services together with software solutions for circulating microRNA analysis.
Numerous studies have by now qualified and validated the regulation of miRNAs after toxic injury on multiple tissues and organs. In the following a few examples for so-called “toxomiRs” are given:
The toxomiRTM panel allows to analyze 19 distinct microRNAs with specific biological functions. Therefore, the toxomiRTM panel reports a novel measure toxicity.
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