Evaluation of microRNAs−208 and 133a/b as differential biomarkers of acute cardiac and skeletal muscle toxicity in rats

Conventional circulating biomarkers of cardiac and skeletal muscle (SKM) toxicity lack specificity and/or have a short half-life. MicroRNAs (miRNAs) are currently being assessed as biomarkers of tissue injury based on their long half-life in blood and selective expression in certain tissues. To asse...

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Bibliographic Details
Published in:Toxicology and applied pharmacology 2016-12, Vol.312, p.53-60
Main Authors: Calvano, Jacqueline, Achanzar, William, Murphy, Bethanne, DiPiero, Janet, Hixson, Clifford, Parrula, Cecilia, Burr, Holly, Mangipudy, Raja, Tirmenstein, Mark
Format: Article
Language:English
Subjects:
60 APPLIED LIFE SCIENCES
Acetaminophen - toxicity
Allylamine - toxicity
AMINOTRANSFERASES
ANIMAL TISSUES
Animals
BIOLOGICAL MARKERS
Biomarker
Biomarkers - blood
BLOOD
Cardiotoxicity
COMPARATIVE EVALUATIONS
HEART
Heart - drug effects
INJURIES
Isoproterenol - toxicity
Male
Metaproterenol - toxicity
MicroRNAs - blood
miR-133a/b
miR-208
miRNA
Mitoxantrone - toxicity
Muscle, Skeletal - drug effects
MYOSIN
RATS
Rats, Sprague-Dawley
Skeletal myotoxicity
TOXICITY
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Summary:Conventional circulating biomarkers of cardiac and skeletal muscle (SKM) toxicity lack specificity and/or have a short half-life. MicroRNAs (miRNAs) are currently being assessed as biomarkers of tissue injury based on their long half-life in blood and selective expression in certain tissues. To assess the utility of miRNAs as biomarkers of cardiac and SKM injury, male Sprague–Dawley rats received a single dose of isoproterenol (ISO); metaproterenol (MET); allylamine (AAM); mitoxantrone (MIT); acetaminophen (APAP) or vehicle. Blood and tissues were collected from rats in each group at 4, 24 and 48h. ISO, MET, and AAM induced cardiac and SKM lesions and APAP induced liver specific lesions. There was no evidence of tissue injury with MIT by histopathology. Serum levels of candidate miRNAs were compared to conventional serum biomarkers of SKM/cardiac toxicity. Increases in heart specific miR-208 only occurred in rats with cardiac lesions alone and were increased for a longer duration than cardiac troponin and FABP3 (cardiac biomarkers). ISO, MET and AAM induced increases in MyL3 and skeletal muscle troponin (sTnl) (SKM biomarkers). MIT induced large increases in sTnl indicative of SKM toxicity, but sTnl levels were also increased in APAP-treated rats that lacked SKM toxicity. Serum levels of miR-133a/b (enriched in cardiac and SKM) increased following ISO, MET, AAM and MIT treatments but were absent in APAP-treated rats. Our results suggest that miR-133a/b are sensitive and specific markers of SKM and cardiac toxicity and that miR-208 used in combination with miR-133a/b can be used to differentiate cardiac from SKM toxicity. •MiR-208 is specifically expressed in rat hearts.•MiR-133a/b are enriched in rat cardiac/skeletal muscle.•MiR-133a/b are sensitive and specific markers of muscle/cardiac toxicity.•MiR-208 can be used to differentiate cardiac toxicity from skeletal muscle toxicity.
ISSN:0041-008X
1096-0333
DOI:10.1016/j.taap.2015.11.015