Browsing by Subject "Wnt-Proteine"
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Publication ATP4 and Wnt-signaling are required for ciliogenesis and left-right axis development of Xenopus(2012) Walentek, Peter; Blum, MartinThe vertebrate body plan displays left-right (LR) asymmetries of organ placement superimposed on an overt bilaterally symmetrical organization. Symmetry is broken during embryogenesis, and asymmetric gene expression precedes asymmetric organ morphogenesis. The proton/potassium pump ATP4 was shown to play a role in LR-development of the frog Xenopus laevis as well as in other deuterostomes. Two opposing models of symmetry-breakage were proposed, the ?ion-flux? and the ?leftward flow? model. The former proposed that symmetry was broken by LR-asymmetric expression of the a-subunit of ATP4 during cleavage stages. The latter claimed a cilia-based leftward flow at the gastrocoel roof plate (GRP) to take center stage during neurulation, i.e. a day later in development. In the present thesis work, the role of ATP4a in symmetry-breakage was re-addressed and evidence for symmetrical expression and function of ATP4a was gathered. ATP4a was shown to be required for two Wnt-signaling dependent steps during the setup of cilia driven leftward flow at the GRP: (1) Wnt/b-catenin (b-cat) dependent expression of Foxj1 during gastrulation, and (2) Wnt/planar cell polarity (PCP) dependent posterior localization of motile cilia during neurulation. These data challenge the ?ion-flux? hypothesis and argue for a conserved ATP4- and cilia-dependent symmetry-breakage mechanism throughout the vertebrates. Furthermore, the function of Wnt-signaling components was analyzed in the context of GRP-formation: The receptor Frizzled 8 (Fz8) and b-cat were required for Foxj1 expression during gastrulation. Morphogenesis of the GRP, posterior polarization of motile cilia and expression of Xnr1 and Coco in somitic cells were all required for LR-development. Loss of non-canonical Xwnt11b-signaling perturbed these process, suggesting that non-canonical Wnt-signaling branches, in addition to Wnt/PCP, were relevant for LR-development. ATP4-mediated Wnt-signaling was also required for Foxj1 expression and motile cilia in other epithelia during Xenopus development, i.e. the skin, floor plate and the ependymal cell layer. In the floor plate b-cat was required for Foxj1 expression downstream of Hedgehog-signaling. In the skin mucociliary epithelium ATP4a and Wnt/b-cat were required downstream of Notch/Delta-mediated cell-type specification of multiciliated cells. This was also true for a new cell type of serotonergic cells described here, which was characterized morphologically, by analysis of gene expression and response to manipulations of Wnt- and Notch/Delta-signaling. In summary, the data presented in this thesis suggest a conserved function of ATP4a and Wnt-signaling in vertebrate symmetry-breakage and Foxj1-dependent ciliogenesis in Xenopus.