Cooperative roles of PAK1 and filamin A in regulation of vimentin assembly and cell extension formation.

The formation of extensions in cell migration requires tightly coordinated reorganization of all three cytoskeletal polymers but the mechanisms by which intermediate filament networks interact with actin to generate extensions are not well-defined. We examined interactions of the actin binding protein filamin A (FLNA) with vimentin in extension formation by fibroblasts. Knockdown (KD) of vimentin in fibroblasts reduced the lengths of cell extensions by 50% (p < 0.001). After cell binding to fibronectin, there was a time-dependent increase of phosphorylation of serine 39, 56 and 72 in vimentin, which was associated with vimentin filament assembly. Of the FLNA-interacting kinases that could phosphorylate vimentin, we focused on PAK1, which we found by reciprocal immunoprecipitation associated with FLNA. Enzyme inhibitor studies and siRNA KD demonstrated that PAK1 was required for vimentin phosphorylation and formation of cell extensions. In sedimentation assays, vimentin was exclusively detected in the insoluble pellet fraction of cells expressing FLNA while in FLNA KD cells there was increased vimentin in the supernatants of FLN KD cells. Compared with wild type, FLNA KD cells showed loss of phosphorylation of serine 56 and 72 in vimentin and reduced numbers and lengths of cell extensions by >4-fold. We suggest that the association of PAK1 with FLNA enables vimentin phosphorylation and filament assembly, which are important in the development and stabilization of cell extensions during cell migration.