Rac1 Activation Controls Nuclear Localization of β-catenin during Canonical Wnt Signaling

Canonical Wnt signaling critically regulates cell fate and proliferation in development and disease. Nuclear localization of β-catenin is indispensable for canonical Wnt signaling; however, the mechanisms governing β-catenin nuclear localization are not well understood. Here we demonstrate that nuclear accumulation of β-catenin in response to Wnt requires Rac1 activation. The role of Rac1 depends on phosphorylation of β-catenin at Ser191 and Ser605, which is mediated by JNK2 kinase. Mutations of these residues significantly affect Wnt-induced β-catenin nuclear accumulation. Genetic ablation of Rac1 in the mouse embryonic limb bud ectoderm disrupts canonical Wnt signaling and phenocopies deletion of β-catenin in causing severe truncations of the limb. Finally, Rac1 interacts genetically with β-catenin and Dkk1 in controlling limb outgrowth. Together these results uncover Rac1 activation and subsequent β-catenin phosphorylation as a hitherto uncharacterized mechanism controlling canonical Wnt signaling and may provide additional targets for therapeutic intervention of this important pathway.