IpaA reveals distinct modes of vinculin activation duringShigellainvasion and cell-matrix adhesion

Abstract

AbstractVinculin is a cytoskeletal linker strengthening cell adhesion. TheShigellaIpaA invasion effector binds to vinculin to promote vinculin supra-activation associated with head-domain mediated oligomerization. Our study investigates the impact of mutations of vinculin D1D2 subdomains’ residues predicted to interact with IpaA VBS3. These mutations affected the rate of D1D2 trimer formation with distinct effects on monomer disappearance, consistent with structural modeling of a “closed” and “open” D1D2 conformer induced by IpaA. Notably, mutations targeting the closed D1D2 conformer significantly reducedShigellainvasion of host cells as opposed to mutations targeting the open D1D2 conformer and later stages of vinculin head-domain oligomerization. In contrast, all mutations affected the formation of focal adhesions (FAs), supporting the involvement of vinculin supra-activation in this process. Our findings suggest that IpaA-induced vinculin supra-activation primarily reinforces matrix adhesion in infected cells, rather than promoting bacterial invasion. Consistently, shear stress studies pointed to a key role for IpaA-induced vinculin supra-activation in accelerating and strengthening cell matrix adhesion.