Animals (Oct 2021)

Interleukin 17D Enhances the Developmental Competence of Cloned Pig Embryos by Inhibiting Apoptosis and Promoting Embryonic Genome Activation

  • Xiao Wu,
  • Huaxing Zhao,
  • Junkun Lai,
  • Ning Zhang,
  • Junsong Shi,
  • Rong Zhou,
  • Qiaoyun Su,
  • Enqin Zheng,
  • Zheng Xu,
  • Sixiu Huang,
  • Linjun Hong,
  • Ting Gu,
  • Jie Yang,
  • Huaqiang Yang,
  • Gengyuan Cai,
  • Zhenfang Wu,
  • Zicong Li

DOI
https://doi.org/10.3390/ani11113062
Journal volume & issue
Vol. 11, no. 11
p. 3062

Abstract

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Cloned animals generated by the somatic cell nuclear transfer (SCNT) approach are valuable for the farm animal industry and biomedical science. Nevertheless, the extremely low developmental efficiency of cloned embryos hinders the application of SCNT. Low developmental competence is related to the higher apoptosis level in cloned embryos than in fertilization-derived counterparts. Interleukin 17D (IL17D) expression is up-regulated during early mouse embryo development and is required for normal development of mouse embryos by inhibiting apoptosis. This study aimed to investigate whether IL17D plays roles in regulating pig SCNT embryo development. Supplementation of IL17D to culture medium improved the developmental competence and decreased the cell apoptosis level in cloned porcine embryos. The transcriptome data indicated that IL17D activated apoptosis-associated pathways and promoted global gene expression at embryonic genome activation (EGA) stage in treated pig SCNT embryos. Treating pig SCNT embryos with IL17D up-regulated expression of GADD45B, which is functional in inhibiting apoptosis and promoting EGA. Overexpression of GADD45B enhanced the developmental efficiency of cloned pig embryos. These results suggested that IL17D treatment enhanced the developmental ability of cloned pig embryos by suppressing apoptosis and promoting EGA, which was related to the up-regulation of GADD45B expression. This study demonstrated the roles of IL17D in early development of porcine SCNT embryos and provided a new approach to improve the developmental efficiency of cloned porcine embryos.

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