Lemeer Simone, Jopling Chris, Gouw Joost, Mohammed Shabaz, Heck Albert J R, Slijper Monique, den Hertog Jeroen
Hubrecht Institute-Royal Netherlands Academy of Arts and Sciences, University Medical Center Utrecht, Uppsalalaan 8, 3584 CT Utrecht, the Netherlands.
Mol Cell Proteomics. 2008 Nov;7(11):2176-87. doi: 10.1074/mcp.M800081-MCP200. Epub 2008 Jun 11.
The coordinated movement of cells is indispensable for normal vertebrate gastrulation. Several important players and signaling pathways have been identified in convergence and extension (CE) cell movements during gastrulation, including non-canonical Wnt signaling. Fyn and Yes, members of the Src family of kinases, are key regulators of CE movements as well. Here we investigated signaling pathways in early development by comparison of the phosphoproteome of wild type zebrafish embryos with Fyn/Yes knockdown embryos that display specific CE cell movement defects. For quantitation we used differential stable isotope labeling by reductive amination of peptides. Equal amounts of labeled peptides from wild type and Fyn/Yes knockdown embryos were mixed and analyzed by on-line reversed phase TiO(2)-reversed phase LC-MS/MS. Phosphorylated and non-phosphorylated peptides were quantified, and significant changes in protein expression and/or phosphorylation were detected. We identified 348 phosphoproteins of which 69 showed a decrease in phosphorylation in Fyn/Yes knockdown embryos and 72 showed an increase in phosphorylation. Among these phosphoproteins were known regulators of cell movements, including Adducin and PDLIM5. Our results indicate that quantitative phosphoproteomics combined with morpholino-mediated knockdowns can be used to identify novel signaling pathways that act in zebrafish development in vivo.
细胞的协调运动对于正常脊椎动物原肠胚形成是必不可少的。在原肠胚形成期间的汇聚延伸(CE)细胞运动中,已经确定了几个重要的参与者和信号通路,包括非经典Wnt信号通路。Src激酶家族的成员Fyn和Yes也是CE运动的关键调节因子。在这里,我们通过比较野生型斑马鱼胚胎与显示特定CE细胞运动缺陷的Fyn/Yes敲低胚胎的磷酸化蛋白质组,研究了早期发育中的信号通路。为了进行定量,我们使用了通过肽的还原性胺化进行的差异稳定同位素标记。将来自野生型和Fyn/Yes敲低胚胎的等量标记肽混合,并通过在线反相TiO(2)-反相LC-MS/MS进行分析。对磷酸化和非磷酸化肽进行定量,并检测蛋白质表达和/或磷酸化的显著变化。我们鉴定出348种磷酸化蛋白质,其中69种在Fyn/Yes敲低胚胎中磷酸化减少,72种磷酸化增加。这些磷酸化蛋白质中包括已知的细胞运动调节因子,如内收蛋白和PDLIM5。我们的结果表明,定量磷酸化蛋白质组学与吗啉代介导的敲低相结合可用于鉴定在斑马鱼体内发育中起作用的新信号通路。
