Abstract
Genetic studies on endoderm-mesoderm specification in Caenorhabditis elegans have demonstrated a role for several Wnt cascade components as well as for a MAPK-like pathway in this process. The latter pathway includes the MAPK kinase kinase-like MOM-4/Tak1, its adaptor TAP-1/Tab1, and the MAPK-like LIT-1/Nemo-like kinase. A model has been proposed in which the Tak1 kinase cascade counteracts the Wnt cascade at the level of beta-catenin/TCF phosphorylation. In this model, the signal that activates the Tak1 kinase cascade is unknown. As an alternative explanation of these genetic data, we have explored whether Tak1 is directly activated by Wnt. We find that Wnt1 stimulation results in autophosphorylation and activation of MOM-4/Tak1 in a TAP-1/Tab1-dependent fashion. Wnt1-induced Tak1 stimulation activates Nemo-like kinase, resulting in the phosphorylation of TCF. Our results combined with the genetic data from C. elegans imply a mechanism whereby Wnt directly activates the MOM-4/Tak1 kinase signaling pathway. Thus, Wnt signal transduction through the canonical pathway activates beta-catenin/TCF, whereas Wnt signal transduction through the Tak1 pathway phosphorylates and inhibits TCF, which might function as a feedback mechanism.
Highlights
Genetic studies in Caenorhabditis elegans have shown that Wnt signaling acts very early in nematode development to induce endoderm
It has been proposed that the C. elegans MOM-4/LIT-1 pathway converges with the Wnt cascade to down-regulate POP-1 in the posterior daughter cell E [8, 34]
Wnt1 Stimulation Results in Autophosphorylation and Activation of MOM-4 —In C. elegans, genetic screens and RNA-mediated interference (RNAi) have identified Wnt pathway genes and components of the MAPK-related pathway that are required for endoderm induction [3,4,5,6,7,8,9]
Summary
Genetic studies in Caenorhabditis elegans have shown that Wnt signaling acts very early in nematode development to induce endoderm. Wnt1-induced Tak1 stimulation activates Nemo-like kinase, resulting in the phosphorylation of TCF. Our results combined with the genetic data from C. elegans imply a mechanism whereby Wnt directly activates the MOM-4/Tak1 kinase signaling pathway.
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