Background information: During embryonic development, beta-catenin is central both to the transcriptional activation of Wnt [wingless-type MMTV (murine-mammary-tumour virus) integration site family] target genes and as a mediator of cell-cell adhesion. Signals that regulate its levels and subcellular localization are critical. One mechanism of Wnt signalling results in stabilization of beta-catenin protein, which leads to its translocation into the nucleus, where it interacts with TCF (T-cell factor, HMG box) and activates transcription of target genes. Less well understood are mechanisms of Wnt signalling that do not involve beta-catenin stabilization and result in inhibition of beta-catenin-mediated transcription.
Results: Here, we show that a member of the Wnt protein family, Wnt4 (Wnt, member 4), regulates the subcellular localization of beta-catenin, redirecting it to the cell membrane. Unique among Wnts, this action does not affect the stability of beta-catenin but does prohibit its involvement in TCF gene transactivation.
Conclusions: This novel mechanism suggests that Wnt4 acts as a switch between the two modes of beta-catenin function, transcriptional activation and cell-cell adhesion.