Cdc42EP3-bound septin scaffolds promote actin polymerization

Abstract

Septins are cytoskeletal filament-forming proteins that typically associate with membranes and perform critical functions in a variety of cellular processes. Septins often colocalize with actin and microtubule structures, yet our understanding of all the ways that septins contribute mechanistically to actin- and microtubule-based functions is incomplete. The Cdc42 effector protein Cdc42EP3 (also known as BORG2) promotes septin localization to actin structures in vivo, but little else is known about how Cdc42EP3 influences the interactions of septins and F-actin. Here, using purified components, we show that Cdc42EP3 binds directly to septins, actin filaments, and actin monomers. Moreover, septin-bound Cdc42EP3 accelerates actin filament polymerization. Thus, Cdc42EP3 is not merely a factor that crosslinks septins and F-actin, but one that promotes the formation of actin polymers along septin scaffolds.