The involvement of Frodo in TCF-dependent signaling and neural tissue development

doi:10.1242/dev.01369

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Development ePress online publication date 25 Aug 2004
doi: 10.1242/dev.01369

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Research article

The involvement of Frodo in TCF-dependent signaling and neural tissue development

Hiroki Hikasa and Sergei Y. Sokol^*
^* Author for correspondence (e-mail: sergei.sokol{at}mssm.edu)

Frodo is a novel conserved regulator of Wnt signaling thathas been identified by its association with Dishevelled, anintracellular component of Wnt signal transduction. To understandfurther how Frodo functions, we have analyzed its role in neuraldevelopment using specific morpholino antisense oligonucleotides.We show that Frodo and the closely related Dapper synergisticallyregulate head development and morphogenesis. Both genes werecell-autonomously required for neural tissue formation, as definedby the pan-neural markers sox2 and nrp1. By contrast, ${beta}$ -cateninwas not required for pan-neural marker expression, but was involvedin the control of the anteroposterior patterning. In the mesoderm,Frodo and Dapper were essential for the expression of the organizergenes chordin, cerberus and Xnr3, but they were not necessaryfor the expression of siamois and goosecoid, established targetsof ${beta}$ -catenin signaling. Embryos depleted of either gene showeda decreased transcriptional response to TCF3-VP16, a ${beta}$ -catenin-independenttranscriptional activator. Whereas the C terminus of Frodo bindsDishevelled, we demonstrate that the conserved N-terminal domainassociates with TCF3. Based on these observations, we proposethat Frodo and Dapper link Dsh and TCF to regulate Wnt targetgenes in a pathway parallel to that of ${beta}$ -catenin.

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