Abstract
DaaE is a member of the Dr adhesin family of Escherichia coli, members of which are associated with diarrhea and urinary tract infections. A receptor for Dr adhesins is the cell surface protein, decay-accelerating factor (DAF). We have carried out a functional analysis of Dr adhesins, as well as mutagenesis and crystallographic studies of DaaE, to obtain detailed molecular information about interactions of Dr adhesins with their receptors. The crystal structure of DaaE has been solved at 1.48 A resolution. Trimers of the protein are found in the crystal, as has been the case for other Dr adhesins. Naturally occurring variants and directed mutations in DaaE have been generated and analyzed for their ability to bind DAF. Mapping of the mutation sites onto the DaaE molecular structure shows that several of them contribute to a contiguous surface that is likely the primary DAF-binding site. The DAF-binding properties of purified fimbriae and adhesin proteins from mutants and variants correlated with the ability of bacteria expressing these proteins to bind to human epithelial cells in culture. DaaE, DraE, AfaE-III, and AfaE-V interact with complement control protein (CCP) domains 2-4 of DAF, and analysis of the ionic strength dependence of their binding indicates that the intermolecular interactions are highly electrostatic in nature. The adhesins AfaE-I and NfaE-2 bind to CCP-3 and CCP-4 of DAF, and electrostatic interactions contribute significantly less to these interactions. These observations are consistent with structural predictions for these Dr variants and also suggest a role for the positively charged region linking CCP-2 and CCP-3 of DAF in electrostatic Dr adhesin-DAF interactions.
Highlights
Bacterial pathogens frequently express adhesins that mediate attachment to the sites of infections
We provide experimental evidence that electrostatic forces play an important role in DaaE, DraE, AfaE-III, and AfaE-V interactions with decay-accelerating factor (DAF) and that electrostatic steering is a minor contribution to AfaE-I and NfaE-2 binding to DAF
The results of this study provide new insight into DAF-Dr adhesin associations and increase our understanding of the complex mechanisms used by pathogenic E. coli to cause infections
Summary
Bacterial Strains—Bacterial strains were grown in Luria-Bertani (LB) or Super Broth (SB) medium at 37 °C. The protein was expressed by pET-21d (Novagen) derivatives in E. coli BL21 (DE3) and purified by metal affinity chromatography followed by size exclusion chromatography on Superdex 75 (Amersham Biosciences). This construct provided proteins suitable for crystallization and binding studies, it did not result in self-complemented monomers. For SPR experiments, the protein was purified by gel filtration chromatography using a Superdex 200 column (Amersham Biosciences) in HBS-E buffer. To analyze the affinity of the DaaE mutants, standard curves for binding of varying concentrations of DAF234 in solution to DaaE fimbriae or DaaE trimer immobilized on sensor chips were generated by plotting the concentration of DAF against the steady state SPR response at each concentration.
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