nemo-like kinase is an essential co-activator of Wnt signaling during early zebrafish development

doi:10.1242/dev.01171

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Development ePress online publication date 19 May 2004
doi: 10.1242/dev.01171

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Research article

nemo-like kinase is an essential co-activator of Wnt signaling during early zebrafish development

Chris J. Thorpe and Randall T. Moon^*
^* Author for correspondence (e-mail: rtmoon{at}u.washington.edu)

Wnt/ ${beta}$ -catenin signaling regulates many aspects of early vertebratedevelopment, including patterning of the mesoderm and neurectodermduring gastrulation. In zebrafish, Wnt signaling overcomes basalrepression in the prospective caudal neurectoderm by Tcf homologsthat act as inhibitors of Wnt target genes. The vertebrate homologof Drosophila nemo, nemo-like kinase (Nlk), can phosphorylateTcf/Lef proteins and inhibit the DNA-binding ability of ${beta}$ -catenin/Tcfcomplexes, thereby blocking activation of Wnt targets. By contrast,mutations in a C. elegans homolog show that Nlk is requiredto activate Wnt targets that are constitutively repressed byTcf. We show that overexpressed zebrafish nlk, in concert withwnt8, can downregulate two tcf3 homologs, tcf3a and tcf3b, thatrepress Wnt targets during neurectodermal patterning. Inhibitionof nlk using morpholino oligos reveals essential roles in regulatingventrolateral mesoderm formation in conjunction with wnt8, andin patterning of the midbrain, possibly functioning with wnt8b.In both instances, nlk appears to function as a positive regulatorof Wnt signaling. Additionally, nlk strongly enhances convergent/extensionphenotypes associated with wnt11/silberblick, suggesting a rolein modulating cell movements as well as cell fate.

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