| Popis: |
MicroRNAs (miRNAs) are a class of small endogenous single stranded, non-coding RNA molecules that have an important role in several biological processes such as gene regulation, proliferation, apoptosis and metabolism. Emerging research in humans and laboratory animals has shown that miRNAs play important roles in regulating genes associated with type II diabetes and metabolic syndrome, and that the levels of specific miRNAs circulating in the bloodstream can serve as potential biomarkers for the diagnosis and prognosis of these diseases. We hypothesized that insulin resistant horses would have a different circulating miRNA profile than those who are healthy. Fifteen non-pregnant mares housed at the Virginia Tech Middleburg Agricultural Research and Extension Center were evaluated for insulin sensitivity with the frequent sampling intravenous glucose tolerance test to determine insulin sensitivity. Six mares representing the most insulin-sensitive (IS, n 1⁄4 3) and insulinresistant (IR, n 1⁄4 3) states, and paired for age, weight, and body condition, underwent miRNA profiling. Serum samples were collected, miRNA was extracted and microarray analysis was performed to investigate the presence and relative amount of 340 equine miRNAs. Paired t-tests were performed to compare miRNA between groups. Confirmation by qRT-PCR clearly demonstrated that miRNA was present in the serum of all animals, with 5 miRNAs present only in IS mares. Included in the latter are mir-302, a described inhibitor of adipogenesis and hepatic insulin resistance; mir-208a,implicated in cardiac metabolism and regulation of metabolic genes involved in energy expenditure; and mir-381, previously shown to be upregulated in obese sheep and their offspring. Eight of the 82 miRNAs recovered from all samples demonstrated differential expression (P < 0.10) between IS and IR groups; 3 were upregulated and 5 were downregulated in IR relative to IS horses. The novel results of this preliminary study suggest a potential new tool that could be developed for the diagnosis and treatment of metabolic syndrome in horses. |
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