Cryo-Em Structure of Type 1 Pilus

• Urinary tract infections (UTIs) are caused by a wide range of pathogens, but the most common causative agent of UTIs is uropathogenic Escherichia coli (UPEC). Virtually all uropathogenic strains of E. coli encode filamentous surface adhesive organelles called type 1 pili, which are a subset of Chaperone-usher pathway (CUP) pili. CUP pili are also ubiquitously expressed on the surface of many other Gram-negative bacterial pathogens. They are important virulence factors facilitating host-pathogen interactions that are crucial for the establishment and persistence of an infection, and involved in regulating other key processes such as biofilm formation. We have solved the 4.2 Å resolution cryo-EM structure of the type 1 pilus, which was present as a background contaminant in a prep of type 4 pili. We have taken advantage of the strength of cryo-EM to separate different molecules and conformations present in solution to show that filament images which might otherwise have been discarded as a contaminant can actually be used to build an atomic model. The model reveals the residues that allow a long chain of FimA subunits, linked by the insertion of a β-strand of one subunit into the β-sheet of an adjacent subunit, to coil into a rigid rod. We show that site-specific mutation of these residues reduces the force needed to unwind the rod. Strikingly, one mutation (A22R) which showed the greatest reduction in unwinding force, eliminated bladder infections in a mouse model. This is presumably due to the fact that the altered mechanics of the A22R pilus rod cannot withstand the shear forces due to urinary flow in the bladder and bacteria harboring this mutation are cleared from the bladder. This provides new insights into the important role of pili mechanics in bacterial pathogenesis.

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NATURVETENSKAP  -- Biologi -- Biofysik (hsv//swe)

NATURAL SCIENCES  -- Biological Sciences -- Biophysics (hsv//eng)

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