Catching the WAVEs of Plant Actin Regulation

Plants, as all other eukaryotic organisms, depend on a dynamic actin cytoskeleton for proper function and development. Actin dynamics is a complex process, regulated by a number of actin-binding proteins and large multiprotein complexes like ARP2/3 and WAVE. The ARP2/3 complex is recognized as a nucleator of actin filaments, and it generates a highly branched network of interlaced microfilaments. Results from multiple organisms show that ARP2/3 activity is regulated through multiple pathways. Recent results from plants point to a signaling pathway leading from the small GTPase RAC/ROP through a protein complex containing the ARP2/3-activating protein WAVE. This signaling pathway appears to be evolutionarily conserved. Support for this regulatory mechanism comes from studies of mutations in genes encoding subunits of the putative ARP2/3 complex and the WAVE complex in Arabidopsis. Several such mutants have defects of actin filament organization, leading to a conspicuous “distorted” trichome phenotype. Multiple growth and developmental phenotypes reported for napp/gnarled/atnap, pirp/pirogi/atpir, and distorted3 mutants reveal that these WAVE proteins are also required for a wider variety of cellular functions in addition to regulating trichome cell growth. These results have implications for the current view on cell morphogenesis in plants.