Asymmetrically expressed axin required for anterior development in Tribolium

J Fu, N Posnien, R Bolognesi… - Proceedings of the …, 2012 - National Acad Sciences
J Fu, N Posnien, R Bolognesi, TD Fischer, P Rayl, G Oberhofer, P Kitzmann, SJ Brown…
Proceedings of the National Academy of Sciences, 2012National Acad Sciences
Canonical Wnt signaling has been implicated in an AP axis polarizing mechanism in most
animals, despite limited evidence from arthropods. In the long-germ insect, Drosophila, Wnt
signaling is not required for global AP patterning, but in short-germ insects including
Tribolium castaneum, loss of Wnt signaling affects development of segments in the growth
zone but not those defined in the blastoderm. To determine the effects of ectopic Wnt
signaling, we analyzed the expression and function of axin, which encodes a highly …
Canonical Wnt signaling has been implicated in an AP axis polarizing mechanism in most animals, despite limited evidence from arthropods. In the long-germ insect, Drosophila, Wnt signaling is not required for global AP patterning, but in short-germ insects including Tribolium castaneum, loss of Wnt signaling affects development of segments in the growth zone but not those defined in the blastoderm. To determine the effects of ectopic Wnt signaling, we analyzed the expression and function of axin, which encodes a highly conserved negative regulator of the pathway. We found Tc-axin transcripts maternally localized to the anterior pole in freshly laid eggs. Expression spread toward the posterior pole during the early cleavage stages, becoming ubiquitous by the time the germ rudiment formed. Tc-axin RNAi produced progeny phenotypes that ranged from mildly affected embryos with cuticles displaying a graded loss of anterior structures, to defective embryos that condensed at the posterior pole in the absence of serosa. Altered expression domains of several blastodermal markers indicated anterior expansion of posterior fates. Analysis of other canonical Wnt pathway components and the expansion of Tc-caudal expression, a Wnt target, suggest that the effects of Tc-axin depletion are mediated through this pathway and that Wnt signaling must be inhibited for proper anterior development in Tribolium. These studies provide unique evidence that canonical Wnt signaling must be carefully regulated along the AP axis in an arthropod, and support an ancestral role for Wnt activity in defining AP polarity and patterning in metazoan development.
National Acad Sciences
以上显示的是最相近的搜索结果。 查看全部搜索结果