PLoS ONE (Jan 2020)

Analysis of miRNAs and their target genes associated with mucosal damage caused by transport stress in the mallard duck intestine.

  • Hao Zhang,
  • Fang Chen,
  • Zhenhua Liang,
  • Yan Wu,
  • Jinsong Pi,
  • Lixia Wang,
  • Jinping Du,
  • Jie Shen,
  • Ailuan Pan,
  • Yuejin Pu

DOI
https://doi.org/10.1371/journal.pone.0237699
Journal volume & issue
Vol. 15, no. 8
p. e0237699

Abstract

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Bowel health is an important factor for duck rearing that has been linked to feed uptake and growth and death rates. Because the regulatory networks associated with acute stress-mediated injury in the duck gastrointestinal tract have not clearly elucidated, we aimed to explore potential miRNA-mRNA pairs and their regulatory roles in oxidative stress injury caused by transport stress. Here, 1-day-old mallard ducklings from the same breeder flock were collected and transported for 8 h, whereas the control group was not being transported. Various parameters reflecting oxidative stress and the tissue appearance of the intestine were assessed. The data showed that the plasma T-AOC and SOD concentrations were decreased in the transported ducklings. The intestine of the transported ducklings also displayed significant damage. High-throughput sequencing of the intestine revealed 44 differentially expressed miRNAs and 75 differentially expressed genes, which constituted 344 miRNA-mRNA pairs. KEGG pathway analysis revealed that the metabolic, FoxO signaling, influenza A and TGF-β signaling pathways were mainly involved in the mechanism underlying the induction of intestinal damage induced by simulated transport stress in ducks. A miRNA-mRNA pair, miR-217-5p/CHRDL1, was selected to validate the miRNA-mRNA negative relationship, and the results showed that miR-217-5p could influence CHRDL1 expression. This study provides new useful information for future research on the regulatory network associated with mucosal damage in the duck intestine.