Abstract
Vasodilator-stimulated phosphoprotein (VASP) is active in many filopodium-based and cytoskeleton reorganization processes. It is not fully understood how VASP directly functions in actin-based motility and how regulatory proteins affect its function. Here, we combine bead motility assay and single filament experiments. In the presence of a bundling component, actin bundles that grow from the surface of WT-VASP-coated beads induced movement of the beads. VASP promotes actin-based movement alone, in the absence of other actin nucleators. We propose that at physiological salt conditions VASP nucleation activity is too weak to promote motility and bundle formation. Rather, VASP recruits F-actin seeds from the solution and promotes their elongation. Cofilin has a crucial role in the nucleation of these F-actin seeds, notably under conditions of unfavorable spontaneous actin nucleation. We explored the role of multiple VASP variants. We found that the VASP-F-actin binding domain is required for the recruitment of F-actin seeds from the solution. We also found that the interaction of profilin-actin complexes with the VASP-proline-rich domain and the binding of the VASP-F-actin binding domain to the side of growing filaments is critical for transforming actin polymerization into motion. At the single filament level, profilin mediates both filament elongation rate and VASP anti-capping activity. Binding of profilin-actin complexes increases the polymerization efficiency by VASP but decreases its efficiency as an anti-capper; binding of free profilin creates the opposite effect. Finally, we found that an additional component such as methylcellulose or fascin is required for actin bundle formation and motility mediated by VASP.
Highlights
Ena/Vasodilator-stimulated phosphoprotein (VASP) proteins play major roles in cell and pathogen motility
We found that an additional component such as methylcellulose or fascin is required for actin bundle formation and motility mediated by VASP
The beads were added to a mixture of purified proteins consisting of actin, profilin, cofilin, capping proteins (CPs), and MC, which promote actin filament bundling [43]. 5–25 min after mixing, we observed the growth of numerous actin bundles from the surface of the beads (Fig. 1A and supplemental Movie 1), which sometimes fused to form thicker bun
Summary
Results: VASP promotes motility by recruiting F-actin seeds produced by cofilin, while competing with CPs with efficiency that depends on profilin concentration. Ena/VASP2 proteins play important roles in many cellular processes, including actin-based movement of cells and the. Numerous in vivo and in vitro studies were conducted to uncover the role of Ena/VASP proteins in actin-based processes, notably actin-based motility. By combining single filament experiment and bead motility assay, we show that VASP promotes actin-based movement alone, in the absence of any other actin nucleators. We find that cofilin promotes the nucleation of numerous F-actin seeds recruited by VASP, under conditions where spontaneous actin nucleation is unfavorable, i.e. elevated profilin concentrations.
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