Wiskott-Aldrich syndrome protein (WASP)-homology domain 2 (WH2) is a small and widespread actin-binding motif. In the WASP family, WH2 plays a role in filament nucleation by Arp2͞3 complex. Here we describe the crystal structures of complexes of actin with the WH2 domains of WASP, WASP-family verprolin homologous protein, and WASP-interacting protein. Despite low sequence identity, WH2 shares structural similarity with the N-terminal portion of the actin monomer-sequestering thymosin  domain (T). We show that both domains inhibit nucleotide exchange by targeting the cleft between actin subdomains 1 and 3, a common binding site for many unrelated actin-binding proteins. Importantly, WH2 is significantly shorter than T but binds actin with Ϸ10-fold higher affinity. WH2 lacks a C-terminal extension that in T4 becomes involved in monomer sequestration by interfering with intersubunit contacts in F-actin. Owing to their shorter length, WH2 domains connected in tandem by short linkers can coexist with intersubunit contacts in F-actin and are proposed to function in filament nucleation by lining up actin subunits along a filament strand. The WH2-central region of WASP-family proteins is proposed to function in an analogous way by forming a special class of tandem repeats whose function is to line up actin and Arp2 during Arp2͞3 nucleation. The structures also suggest a mechanism for how profilin-binding Pro-rich sequences positioned N-terminal to WH2 could feed actin monomers directly to WH2, thereby playing a role in filament elongation.x-ray crystallography ͉ isothermal titration calorimetry ͉ nucleotide exchange T he actin cytoskeleton plays an essential role in many cellular functions, including intracellular transport and the control of cell shape and polarity (1). In the cell, a vast number of actin-binding proteins (ABPs) direct the location, rate, and timing for actin assembly into different structures, such as filopodia, lamellipodia, stress fibers, and focal adhesions. ABPs are commonly multidomain proteins, containing signaling domains and structurally conserved actin-binding motifs. One of the most abundant actin-binding motifs is Wiskott-Aldrich syndrome protein (WASP)-homology domain 2 (WH2) (2). The hematopoietic-specific protein, WASP, and its ubiquitously expressed ortholog N-WASP form part of a family that also includes the three WASP-family verprolin homologous protein (WAVE͞SCAR) isoforms: WAVE1, WAVE2, and WAVE3 (1, 3). Members of this family activate Arp2͞3-dependent actin nucleation and branching in response to signals mediated by Rho-family GTPases. Although the domain structure of these proteins varies, reflecting different modes of regulation, they all share a common C-terminal WH2 central-acidic region (CA region) (Fig. 1A), which constitutes the smallest fragment necessary for Arp2͞3 activation (4). WH2 is also present in members of the WASP-interacting protein (WIP) family, which form complexes with WASP͞N-WASP and modulate their functions in vivo (5, 6). Members of this family include ...
