Litcius/Paper detail

Three structural solutions for bacterial adhesion pilus stability and superelasticity

Matthew H. Doran, Joseph L. Baker, Tobias Dahlberg, Magnus Andersson, Esther Bullitt

2023Structure11 citationsDOIOpen Access PDF

Abstract

Bacterial adhesion pili are key virulence factors that mediate host-pathogen interactions in diverse epithelial environments. Deploying a multimodal approach, we probed the structural basis underpinning the biophysical properties of pili originating from enterotoxigenic (ETEC) and uropathogenic bacteria. Using cryo-electron microscopy we solved the structures of three vaccine target pili from ETEC bacteria, CFA/I, CS17, and CS20. Pairing these and previous pilus structures with force spectroscopy and steered molecular dynamics simulations, we find a strong correlation between subunit-subunit interaction energies and the force required for pilus unwinding, irrespective of genetic similarity. Pili integrate three structural solutions for stabilizing their assemblies: layer-to-layer interactions, N-terminal interactions to distant subunits, and extended loop interactions from adjacent subunits. Tuning of these structural solutions alters the biophysical properties of pili and promotes the superelastic behavior that is essential for sustained bacterial attachment.

Topics & Concepts

PilusForce spectroscopyProtein subunitVirulenceAdhesionFimbriaBacterial adhesinBiophysicsBiologyFimbriae ProteinsMicrobiologyChemistryAtomic force microscopyNanotechnologyGeneticsMaterials scienceGeneOrganic chemistryBiochemical and Structural CharacterizationBacteriophages and microbial interactionsStreptococcal Infections and Treatments