The actin‐binding domain of cortactin is dynamic and unstructured and affects lateral and longitudinal contacts in F‐actin

Abstract

Cortactin is an F‐actin‐ and Arp2/3 complex‐binding protein, implicated in the regulation of cytoskeleton dynamics and cortical actin‐assembly. The actin‐binding domain of cortactin consists of a 6.5 tandem repeat of a 37‐amino acid sequence known as the cortactin repeat (residues 80–325). Using a combination of structure prediction, circular dichroism, and cysteine crosslinking, we tested a recently published three‐dimensional model of the cortactin molecule in which the cortactin repeat is folded as a globular helical domain [Zhang et al., 2007, Mol Cell 27:197–213]. We show that the cortactin repeat is unstructured in solution. Thus, wild type and mutant constructs of the cortactin repeat, containing pairs of cysteines at positions 112 and 246, 83 and 112, 83 and 246, and 83 and 306, could be readily crosslinked with reagents of varying lengths (0–9.6 Å). Using yeast actin cysteine mutants, we also show that cortactin inhibits disulfide and dibromobimane crosslinking across the lateral and longitudinal interfaces of actin subunits in the filament, suggesting a weakening of intersubunits contacts. Our results are in disagreement with the proposed model of the cortactin molecule and have important implications for our understanding of cortactin regulation of cytoskeleton dynamics. Cell Motil. Cytoskeleton 2009.