PLoS ONE (Jan 2014)

Constitutive activation of ectodermal β-catenin induces ectopic outgrowths at various positions in mouse embryo and affects abdominal ventral body wall closure.

  • Xuming Zhu,
  • Sixia Huang,
  • Lingling Zhang,
  • Yumei Wu,
  • Yingwei Chen,
  • Yixin Tao,
  • Yushu Wang,
  • Shigang He,
  • Sanbing Shen,
  • Ji Wu,
  • Baojie Li,
  • Xizhi Guo,
  • Lin He,
  • Gang Ma

DOI
https://doi.org/10.1371/journal.pone.0092092
Journal volume & issue
Vol. 9, no. 3
p. e92092

Abstract

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Vertebrate limbs originate from the lateral plate mesoderm (LPM) and the overlying ectoderm. While normal limb formation in defined regions has been well studied, the question of whether other positions retain limb-forming potential has not been fully investigated in mice. By ectopically activating β-catenin in the ectoderm with Msx2-cre, we observed that local tissue outgrowths were induced, which either progressed into limb-like structure within the inter-limb flank or formed extra tissues in other parts of the mouse embryo. In the presumptive abdominal region of severely affected embryos, ectopic limb formation was coupled with impaired abdominal ventral body wall (AVBW) closure, which indicates the existence of a potential counterbalance of limb formation and AVBW closure. At the molecular level, constitutive β-catenin activation was sufficient to trigger, but insufficient to maintain the ectopic expression of a putative limb-inducing factor, Fgf8, in the ectoderm. These findings provide new insight into the mechanism of limb formation and AVBW closure, and the crosstalk between the Wnt/β-catenin pathway and Fgf signal.