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AFM Identifies a Protein Complex Involved in Pathogen Adhesion Which Ruptures at Three Nanonewtons

Constance Chantraine, Marion Mathelié‐Guinlet, Giampiero Pietrocola, Pietro Speziale, Yves F. Dufrêne

2021Nano Letters11 citationsDOIOpen Access PDF

Abstract

Staphylococci bind to the blood protein von Willebrand Factor (vWF), thereby causing endovascular infections. Whether and how this interaction occurs with the medically important pathogen Staphylococcus epidermidis is unknown. Using single-molecule experiments, we demonstrate that the S. epidermidis protein Aap binds vWF via an ultrastrong force, ∼3 nN, the strongest noncovalent biological bond ever reported, and we show that this interaction is activated by tensile loading, suggesting a catch-bond behavior. Aap–vWF binding involves exclusively the A1 domain of vWF but requires both the A and B domains of Aap, as revealed by inhibition assays using specific monoclonal antibodies. Collectively, our results point to a mechanism where force-induced unfolding of the B repeats activates the A domain of Aap, shifting it from a weak- to a strong-binding state, which then engages into an ultrastrong interaction with vWF A1. This shear-dependent function of Aap offers promise for innovative antistaphylococcal therapies.

Topics & Concepts

Von Willebrand factorStaphylococcus epidermidisPathogenAdhesionChemistryMonoclonal antibodyBinding domainAtomic force microscopyBiophysicsProtein AVirulence factorPlasma protein bindingMicrobiologyAntibodyBinding siteCell biologyStaphylococcus aureusNanotechnologyImmunologyBiologyVirulenceBacteriaBiochemistryMaterials sciencePlateletGeneticsOrganic chemistryGeneBiochemical and Structural CharacterizationForce Microscopy Techniques and ApplicationsBacterial biofilms and quorum sensing