The dishevelled associated activator of morphogenesis protein 2 (Daam2) regulates neural tube closure

Abstract

AbstractBackgroundThe Wnt signaling pathway is highly conserved in metazoans and regulates a large array of cellular processes including motility, polarity and fate determination, and stem cell homeostasis. Modulation of the actin cytoskeleton via the non‐canonical Wnt pathway regulate cell polarity and cell migration that are required for proper vertebrate gastrulation and subsequent neurulation. However, the mechanism(s) of how the non‐canonical pathway mediates actin cytoskeleton modulation is not fully understood.ResultsHerein, we characterize the role of the Formin‐homology protein; dishevelled associated activator of morphogenesis 2 (Daam2) protein in the Wnt signaling pathway. Co‐immunoprecipitation assays confirm the binding of Daam2 to dishevelled2 (Dvl2) as well as the domains within these proteins required for interaction; additionally, the interaction between Daam2 and Dvl2 was Wnt‐regulated. Sub‐cellular localization studies reveal Daam2 is cytoplasmic and regulates the cellular actin cytoskeleton by modulating actin filament formation. During Xenopus development, a knockdown or loss of Daam2 specifically produces neural tube closure defects indicative of a role in non‐canonical signaling. Additionally, our studies did not identify any role for Daam2 in canonical Wnt signaling in mammalian culture cells or the Xenopus embryo.ConclusionsOur studies together identify Daam2 as a component of the non‐canonical Wnt pathway and Daam2 is a regulator of neural tube morphogenesis during vertebrate development.