A sticky bacterium can overcome various antiadhesive surfaces

25 April 2023, Version 5
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

While microorganisms have evolved to adhere and form biofilms on surfaces, many materials with antiadhesive surfaces have been developed. The gram-negative bacterium Acinetobacter sp. Tol 5 exhibits high adhesiveness to various surfaces of general materials, from hydrophobic plastics to hydrophilic glass and metals, via AtaA, an Acinetobacter trimeric autotransporter adhesin (TAA). Efficient antiadhesive surfaces should prevent even Tol 5 from adhering. Here, we examined the adhesion of Tol 5 and other bacteria expressing different TAAs to antiadhesive surfaces. The results highlighted the stickiness of Tol 5 through the action of AtaA, which enabled Tol 5 cells to adhere even to antiadhesive materials, including polytetrafluoroethylene with a low surface free energy, a hydrophilic polymer brush with steric hindrance, and mica with an ultrasmooth surface. Single-cell force spectroscopy as an atomic force microscopy technique revealed the strong cell adhesion force of Tol 5 to these antiadhesive materials. Nevertheless, Tol 5 cells showed a weak adhesion force toward a zwitterionic 2-methacryloyloxyethyl-phosphorylcholine (MPC) polymer-coated surface. Dynamic flow cell experiments revealed that Tol 5 cells, once attached to the MPC polymer-coated surface, were exfoliated by weak shear stress. The underlying adhesive mechanism was presumed to involve exchangeable, weakly bound water molecules, suggesting that a perfect antiadhesive surface needs a high free water fraction.

Keywords

cell adhesion
adsorption
bacteria
antiadhesive materials
protein
autotransporters
atomic force microscopy

Supplementary materials

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Supplementary Movie S1
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Detachment of adhered Tol 5 cells from the MPC polymer surface under flow.
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Graphical abstract
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Supplementary Materials
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