Hubrecht Institute - KNAW and University Medical Center Utrecht, The Netherlands.
Dev Biol. 2010 Apr 15;340(2):626-39. doi: 10.1016/j.ydbio.2010.02.026. Epub 2010 Feb 24.
Convergence and extension (C&E) cell movements are essential to shape the body axis during vertebrate gastrulation. We have used the zebrafish to assess the role of the receptor protein-tyrosine phosphatases, RPTPalpha and PTPepsilon, in gastrulation cell movements. Both RPTPalpha and PTPepsilon knockdown and ptpra(-/-) embryos show defects in C&E movements. A method was developed to track gastrulation cell movements using confocal microscopy in a quantitative manner and ptpra(-/-) embryos displayed reduced convergence as well as extension speeds. RPTPalpha and PTPepsilon knockdowns cooperated with knockdown of a well known factor in C&E cell movement, non-canonical Wnt11. RPTPalpha and PTPepsilon dephosphorylate and activate Src family kinases in various cell types in vitro and in vivo. We found that Src family kinase phosphorylation was enhanced in ptpra(-/-) embryos, consistent with reduced Src family kinase activity. Importantly, both ptpra(-/-) and RPTPalpha and PTPepsilon knockdown induced C&E defects were rescued by active Fyn and Yes. Moreover, active RhoA rescued the RPTPalpha and PTPepsilon knockdown and ptpra(-/-) induced gastrulation cell movement defects as well. Our results demonstrate that RPTPalpha and PTPepsilon are essential for C&E movements in a signaling pathway parallel to non-canonical Wnts and upstream of Fyn, Yes and RhoA.
收敛延伸(C&E)细胞运动对于脊椎动物原肠胚形成过程中塑造体轴至关重要。我们利用斑马鱼来评估受体蛋白酪氨酸磷酸酶 RPTPalpha 和 PTPepsilon 在原肠胚形成细胞运动中的作用。RPTPalpha 和 PTPepsilon 的敲低以及 ptpra(-/-) 胚胎都表现出 C&E 运动缺陷。开发了一种使用共聚焦显微镜以定量方式追踪原肠胚形成细胞运动的方法,ptpra(-/-) 胚胎显示出收敛和延伸速度的降低。RPTPalpha 和 PTPepsilon 的敲低与 C&E 细胞运动中一种众所周知的因子非典型 Wnt11 的敲低协同作用。RPTPalpha 和 PTPepsilon 在各种细胞类型中体外和体内去磷酸化并激活 Src 家族激酶。我们发现,ptpra(-/-) 胚胎中的 Src 家族激酶磷酸化增强,与 Src 家族激酶活性降低一致。重要的是,ptpra(-/-) 和 RPTPalpha 和 PTPepsilon 的敲低诱导的 C&E 缺陷都可以通过激活的 Fyn 和 Yes 得到挽救。此外,活性 RhoA 也挽救了 RPTPalpha 和 PTPepsilon 的敲低以及 ptpra(-/-) 诱导的原肠胚形成细胞运动缺陷。我们的结果表明,RPTPalpha 和 PTPepsilon 在非典型 Wnt 平行的信号通路中和 Fyn、Yes 和 RhoA 的上游对于 C&E 运动是必需的。
