Frontiers in Immunology (Dec 2021)

miR-10c Facilitates White Spot Syndrome Virus Infection by Targeting Toll3 in Litopenaeus vannemei

  • Hongliang Zuo,
  • Hongliang Zuo,
  • Hongliang Zuo,
  • Xinxin Liu,
  • Mengting Luo,
  • Linwei Yang,
  • Linwei Yang,
  • Linwei Yang,
  • Zhiming Zhu,
  • Shaoping Weng,
  • Shaoping Weng,
  • Shaoping Weng,
  • Jianguo He,
  • Jianguo He,
  • Jianguo He,
  • Xiaopeng Xu,
  • Xiaopeng Xu,
  • Xiaopeng Xu

DOI
https://doi.org/10.3389/fimmu.2021.733730
Journal volume & issue
Vol. 12

Abstract

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Toll-like receptors (TLRs) are canonical cell membrane receptors functioning to recognize pathogens and transduce signals to activate immune responses. It has been known that Toll3 in Pacific white shrimp Litopenaeus vannamei (LvToll3) plays a critical role in antiviral immunity by inducing the transcription of interferon regulatory factor (IRF), which mediates a signaling axis that is similar to the interferon system of vertebrates. However, the regulatory mechanism of the Toll3-IRF signaling is still unclear. In this study, a novel microRNA (miRNA) of miR-10 family, temporarily named as miR-10c, was identified from L. vannamei. miR-10c may play a nonnegligible regulatory role in shrimp immune responses since it was constitutively expressed in all detected tissues and transcriptionally induced by immune stimulation. Functional analysis validated that miR-10c could target LvToll3 to inhibit its expression, through which miR-10c blocked the nuclear translocation of IRF and facilitated white spot syndrome virus (WSSV) infection. To our knowledge, the present study revealed the first report of a Toll targeted by miRNA in crustaceans and provided a solid evidence base for supporting the role of LvToll3 in antiviral defense by activating IRF signaling in L. vannamei. Identification of the miR-10c/Toll3/IRF regulatory axis in shrimp provides new insights into the participation of miRNA in the regulation of immune responses and contributes to in-depth understanding of the mechanisms of Toll-induced immune responses in L. vannamei.

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