Animals (Oct 2023)

Guanidinoacetic Acid Attenuates Adipogenesis through Regulation of miR-133a in Sheep

  • Jia-Min Zhao,
  • Fan-Qin-Yu Li,
  • Xv-Ying Li,
  • Dan-Rong Jiao,
  • Xiang-Dong Liu,
  • Xiao-Yang Lv,
  • Jun-Xing Zhao

DOI
https://doi.org/10.3390/ani13193108
Journal volume & issue
Vol. 13, no. 19
p. 3108

Abstract

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Guanidinoacetic acid (GAA) is an amino acid derivative, previously described in the skeletal muscle of vertebrates, that serves as an important regulator of cellular bioenergetics and has been widely used as a feed additive. Nevertheless, the effect of GAA on adipose tissue growth remains unclear. Here, we hypothesized that dietary GAA negatively affected adipose tissue development in lambs. Lambs were individually fed diets with (0.09%) or without GAA for 70 d ad libitum, and the subcutaneous adipose tissues were sampled for analysis. The results showed that dietary GAA supplementation decreased the girth rib (GR) value (p p p p p p p miR-133a expression in both subcutaneous adipose tissue and SVF cell was downregulated by GAA. Meanwhile, miR-133a promoted adipogenic differentiation of SVF cells by targeting Sirt1. miR-133a mimics alleviated the inhibitory effect of GAA on SVF cells’ adipogenic differentiation. In summary, GAA attenuated adipogenesis of sheep SVF cells, which might occur through miR-133a-modulated Sirt1 expression.

Keywords