Beta-catenin directly displaces Groucho/TLE repressors from Tcf/Lef in Wnt-mediated transcription activation.

Wnt growth factors mediate cell fate determination during embryogenesis and in the renewal of tissues in the adult. Wnts act by stabilizing cellular levels of the transcriptional coactivator beta-catenin, which forms complexes with sequence-specific DNA-binding Tcf/Lef transcription factors. In the absence of nuclear beta-catenin, Tcf/Lefs act as transcriptional repressors by binding to Groucho/TLE proteins. The molecular basis of the switch from transcriptional repression to activation during Wnt signaling has not been clear, in particular whether factors other than beta-catenin are required to disrupt the interaction between Groucho/TLE and Tcf/Lef. Using highly purified proteins, we demonstrate that beta-catenin displaces Groucho/TLE from Tcf/Lef by binding to a previously unidentified second, low-affinity binding site on Lef-1 that includes sequences just N-terminal to the DNA-binding domain, and that overlaps the Groucho/TLE-binding site.