Membrane Targeting of the Spir·Formin Actin Nucleator Complex Requires a Sequential Handshake of Polar Interactions

Janine Tittel,Tobias Welz,Aleksander Czogalla,Susanne Dietrich,Annette Samol-Wolf,Markos Schulte,Petra Schwille,Thomas Weidemann,Eugen Kerkhoff

doi:10.1074/jbc.m114.602672

Abstract

Spir and formin (FMN)-type actin nucleators initiate actin polymerization at vesicular membranes necessary for long range vesicular transport processes. Here we studied in detail the membrane binding properties and protein/protein interactions that govern the assembly of the membrane-associated Spir·FMN complex. Using biomimetic membrane models we show that binding of the C-terminal Spir-2 FYVE-type zinc finger involves both the presence of negatively charged lipids and hydrophobic contributions from the turret loop that intrudes the lipid bilayer. In solution, we uncovered a yet unknown intramolecular interaction between the Spir-2 FYVE-type domain and the N-terminal kinase non-catalytic C-lobe domain (KIND) that could not be detected in the membrane-bound state. Interestingly, we found that the intramolecular Spir-2 FYVE/KIND and the trans-regulatory Fmn-2-FSI/Spir-2-KIND interactions are competitive. We therefore characterized co-expressed Spir-2 and Fmn-2 fluorescent protein fusions in living cells by fluorescence cross-correlation spectroscopy. The data corroborate a model according to which Spir-2 exists in two different states, a cytosolic monomeric conformation and a membrane-bound state in which the KIND domain is released and accessible for subsequent Fmn-2 recruitment. This sequence of interactions mechanistically couples membrane binding of Spir to the recruitment of FMN, a pivotal step for initiating actin nucleation at vesicular membranes.

Highlights

The Spir1⁄7formin actin nucleator complex organizes actin structures at vesicle membranes
Based on data showing that the fulllength Spir-2 protein is a monomer in the cytosol and only weakly interacts with Fmn-2 when released from membranes, we propose a model according to which Spir-2 exists in two different states, a cytosolic backfolded monomer and a membrane-bound state in which the kinase non-catalytic C-lobe domain (KIND) domain is released and accessible for subsequent formin-2 recruitment
We characterize the molecular interactions that orchestrate the assembly of a Spir1⁄7FMN actin nucleation complex at membranes

Summary

Introduction

The Spir1⁄7formin actin nucleator complex organizes actin structures at vesicle membranes. We uncovered a yet unknown intramolecular interaction between the Spir-2 FYVE-type domain and the N-terminal kinase non-catalytic C-lobe domain (KIND) that could not be detected in the membrane-bound state. The data corroborate a model according to which Spir-2 exists in two different states, a cytosolic monomeric conformation and a membrane-bound state in which the KIND domain is released and accessible for subsequent Fmn-2 recruitment. This sequence of interactions mechanistically couples membrane binding of Spir to the recruitment of FMN, a pivotal step for initiating actin nucleation at vesicular membranes

Objectives

Results

Conclusion