Preclusion of Irreversible Destruction of Dr Adhesin Structures by a High Activation Barrier for the Unfolding Stage of the Fimbrial DraE Subunit

Dr fimbriae of uropathogenic Eschericha coli strains are an example of surface-located adhesive structures assembled via the chaperone−usher pathway. These structures are crucial for specific attachment of bacteria to host receptors. Dr fimbriae are linear associates of DraE proteins, the structure...

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Published in:Biochemistry (Easton) Vol. 48; no. 49; pp. 11807 - 11816
Main Authors: Pia̧tek, Rafał, Bruździak, Piotr, Zalewska-Pia̧tek, Beata, Kur, Józef, Stangret, Janusz
Format: Journal Article
Language:English
Published: United States American Chemical Society 15-12-2009
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Summary:Dr fimbriae of uropathogenic Eschericha coli strains are an example of surface-located adhesive structures assembled via the chaperone−usher pathway. These structures are crucial for specific attachment of bacteria to host receptors. Dr fimbriae are linear associates of DraE proteins, the structure of which is determined by a donor strand complementation between the consecutive subunits. The biogenesis of these structures is dependent on a function of the specific periplasmic chaperone and outer membrane usher proteins. In a consequence of these structural and assembly properties the potential unfolding of a single subunit in a linear associate would cause a destruction of fimbrial adhesion function. This correlates with the observed high resistance of fimbrial structures for denaturation. In this paper we show that the mechanism of thermal denaturation of DraE-sc protein is well described by an irreversible two-state model which is the reduced form of a Lumry−Eyring protein denaturation model. In theory of this model the observed stability of DraE-sc protein is determined by the high activation barrier for the unfolding stage N → U. The microcalorimetry experiments permit to determine kinetic parameters of the DraE-sc unfolding process: energy of activation of 463.5 ± 20.8 kJ·mol−1 and rate constant of order 10−17 s−1. This corresponds to the dissociation/unfolding half-life of Dr fimbriae of 108 years at 25 °C. The FT-IR experiments show that the high stability of DraE is determined by the cooperative rigid protein core. The presented mechanism of kinetic stability of Dr fimbriae is probably universal to adhesive structures of the chaperone−usher type.
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ISSN:0006-2960
1520-4995
DOI:10.1021/bi900920k