Small C-terminal Domain Phosphatase 3 Dephosphorylates the Linker Sites of Receptor-regulated Smads (R-Smads) to Ensure Transforming Growth Factor β (TGFβ)-mediated Germ Layer Induction in Xenopus Embryos

Hanxia Su,Zhirui Hu,Guanni Sun,Xiaohua Yan,Zheying Min,Zhenpo Guan,Qinghua Tao,Xiaopeng Ma,Michael Q Zhang,Wei Wu,Yu Fu,Ye-Guang Chen

doi:10.1074/jbc.m115.655605

Abstract

Germ layer induction is one of the earliest events shortly after fertilization that initiates body formation of vertebrate embryos. In Xenopus, the maternally deposited transcriptional factor VegT promotes the expression of zygotic Nodal/Activin ligands that further form a morphogen gradient along the vegetal-animal axis and trigger the induction of the three germ layers. Here we found that SCP3 (small C-terminal domain phosphatase 3) is maternally expressed and vegetally enriched in Xenopus embryos and is essential for the timely induction of germ layers. SCP3 is required for the full activation of Nodal/Activin and bone morphogenetic protein signals and functions via dephosphorylation in the linker regions of receptor-regulated Smads. Consistently, the linker regions of receptor-regulated Smads are heavily phosphorylated in fertilized eggs, and this phosphorylation is gradually removed when embryos approach the midblastula transition. Knockdown of maternal SCP3 attenuates these dephosphorylation events and the activation of Nodal/Activin and bone morphogenetic protein signals after midblastula transition. This study thus suggested that the maternal SCP3 serves as a vegetally enriched, intrinsic factor to ensure a prepared status of Smads for their activation by the upcoming ligands during germ layer induction of Xenopus embryos.

Highlights

In Xenopus embryos, zygotically activated TGF␤ signaling regulates the formation of three germ layers
The expression pattern in cleavage Xenopus embryos was consistent with the previous report showing that scp3 mRNA was localized in the vegetal cortex of the oocytes [43]
SCP3 Is Essential for Xenopus Embryogenesis—To study the function of SCP3, we tested two independent scp3 MOs by coinjecting MOs with FLAG-tagged scp3 mRNA, and the results indicated that the MOs were effective (Fig. 2A)

Summary

Background

In Xenopus embryos, zygotically activated TGF␤ signaling regulates the formation of three germ layers. Results: Vegetally enriched SCP3 is required for TGF␤ signaling and germ layer induction and functions by removing the inhibitory linker phosphorylation on R-Smads. In Xenopus, the maternally deposited transcriptional factor VegT promotes the expression of zygotic Nodal/Activin ligands that further form a morphogen gradient along the vegetal-animal axis and trigger the induction of the three germ layers. Linker phosphorylation of Smad2/3 in the middle gastrula stage causes Smad2/3 cytosolic retention and termination of Nodal/Activin signaling This was suggested as a mechanism to control the duration of cell competence to TGF␤ signaling in Xenopus gastrula embryos [24]. Further analysis indicated that the maternal deposited SCP3 is required for the full activation of zygotic Nodal/ Activin and BMP signals and functions by dephosphorylating the linker regions of Smad and Smad. Our results suggest that it is the expression of TGF␤ ligands and the release of inhibition on R-Smads at the predetermined time and region that ensures the activation of cellular signals and germ layer specification

Experimental Procedures

Results

Discussion