Beta-catenin N- and C-terminal tails modulate the coordinated binding of adherens junction proteins to beta-catenin

Abstract

beta-Catenin plays a central role in the establishment and regulation of adherens junctions because it interacts with E-cadherin and, through alpha-catenin, with the actin cytoskeleton. beta-Catenin is composed of three domains: a central armadillo repeat domain and two N- and C-terminal tails. The C-tail interacts with the armadillo domain and limits its ability to bind E-cadherin and other cofactors. The two beta-catenin tails are mutually inter-regulated because the C-tail is also necessary for binding of the N-tail to the armadillo domain. Moreover, the N-tail restricts the interaction of the C-tail with the central domain. Depletion of either of the two tails has consequences for the binding of factors at the other end: deletion of the C-tail increases alpha-catenin binding, whereas deletion of the N-tail blocks E-cadherin interaction to the armadillo repeats. As an effect of the interconnection of the tails, the association of alpha-catenin and E-cadherin to beta-catenin is interdependent. Thus, binding of alpha-catenin to the N-tail, through conformational changes that affect the C-tail, facilitates the association of E-cadherin. These results indicate that different cofactors of beta-catenin bind coordinately to this protein and indicate how the two terminal ends of beta-catenin exquisitely modulate intermolecular binding within junctional complexes.