Abstract
AbstractThe cohesion of tissues requires that cells establish cell-cell junctions. Cells contact each other by forming Arp2/3-dependent lamellipodia before they initiate the formation of cadherin-based adherens junctions (AJs). Maturing AJs then assemble actin under force though the formation of a mechanosensitive complex comprising the actin-binding proteins α-catenin, vinculin and VASP, which individually act on the nucleation, elongation and organisation of actin filaments in different ways. However, the activity of the ternary complex that these actin-regulatory proteins form has not been investigated due to the difficulty of assembling this complex in vitro in the absence of force. Here, we first designed mutants of these proteins that interact independently of force. We then studied their activity by combining actin polymerization kinetics in fluorescence spectroscopy with observation of single actin filaments in TIRF microscopy. Our results reveal how α-catenin, vinculin and VASP combine their activities in a complex to inhibit Arp2/3-mediated branching, stimulate the nucleation and elongation of linear actin filaments from profilin-actin and crosslink these filaments into bundles. These findings shed light on the molecular mechanisms by which actin regulators synergistically control the transition of actin architecture and dynamics that accompanies the formation and maturation of AJs.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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