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3 results on '"Mabbett, Amanda N."'

1. UpaG, a new member of the trimeric autotransporter family of adhesins in uropathogenic Escherichia coli

Author

Valle, Jaione, Mabbett, Amanda N., Ulett, Glen C., Toledo-Arana, Alejandro, Wecker, Karine, Totsika, Makrina, Schembri, Mark A., Ghigo, Jean-Marc, and Beloin, Christophe

Subjects
Escherichia coli -- Physiological aspects, Escherichia coli -- Genetic aspects, Escherichia coli -- Research, Gene expression -- Usage, Gene expression -- Research, Carrier proteins -- Physiological aspects, Carrier proteins -- Genetic aspects, Carrier proteins -- Research, Biological sciences
Abstract

The ability of Escherichia coli to colonize both intestinal and extraintestinal sites is driven by the presence of specific virulence factors, among which are the autotransporter (AT) proteins. Members of the trimeric AT adhesin family are important virulence factors for several gram-negative pathogens and mediate adherence to eukaryotic cells and extracellular matrix (ECM) proteins. In this study, we characterized a new trimeric AT adhesin (UpaG) from uropathogenic E. coli (UPEC). Molecular analysis of UpaG revealed that it is translocated to the cell surface and adopts a multimeric conformation. We demonstrated that UpaG is able to promote cell aggregation and biofilm formation on abiotic surfaces in CFT073 and various UPEC strains. In addition, UpaG expression resulted in the adhesion of CFT073 to human bladder epithelial cells, with specific affinity to fibronectin and laminin. Prevalence analysis revealed that upaG is strongly associated with E. coli strains from the B2 and D phylogenetic groups, while deletion of upaG had no significant effect on the ability of CFT073 to colonize the mouse urinary tract. Thus, UpaG is a novel trimeric AT adhesin from E. coli that mediates aggregation, biofilm formation, and adhesion to various ECM proteins.

Published
2008

2. Identification of type 3 fimbriae in uropathogenic Escherichia coli reveals a role in biofilm formation

Author

Ong, Cheryl-Lynn Y., Ulett, Glen C., Mabbett, Amanda N., Beatson, Scott A., Webb, Richard I., Monaghan, Wayne, Nimmo, Graeme R., Looke, David F., McEwan, Alastair G., and Schembri, Mark A.

Subjects
Microbial mats -- Growth, Escherichia coli -- Genetic aspects, Escherichia coli -- Physiological aspects, Company growth, Biological sciences
Abstract

Catheter-associated urinary tract infection (CAUTI) is the most common nosocomial infection in the United States. Uropathogenic Escherichia coli (UPEC), the most common cause of CAUTI, can form biofilms on indwelling catheters. Here, we identify and characterize novel factors that affect biofilm formation by UPEC strains that cause CAUTI. Sixty-five CAUTI UPEC isolates were characterized for phenotypic markers of urovirulence, including agglutination and biofilm formation. One isolate, E. coli MS2027, was uniquely proficient at biofilm growth despite the absence of adhesins known to promote this phenotype. Mini-Tn5 mutagenesis of E. coli MS2027 identified several mutants with altered biofilm growth. Mutants containing insertions in genes involved in O antigen synthesis (rmlC and manB) and capsule synthesis (kpsM) possessed enhanced biofilm phenotypes. Three independent mutants deficient in biofilm growth contained an insertion in a gene locus homologous to the type 3 chaperone-usher class fimbrial genes of Klebsiella pneumoniae. These type 3 fimbrial genes (mrkABCDF), which were located on a conjugative plasmid, were cloned from E. coli MS2027 and could complement the biofilm-deficient transconjugants when reintroduced on a plasmid. Primers targeting the mrkB chaperone-encoding gene revealed its presence in CAUTI strains of Citrobacter koseri, Citrobacter freundii, Klebsiella pneumoniae, and Klebsiella oxytoca. All of these mrkB-positive strains caused type 3 fimbria-specific agglutination of tannic acid-treated red blood cells. This is the first description of type 3 fimbriae in E. coli, C. koseri, and C. freundii. Our data suggest that type 3 fimbriae may contribute to biofilm formation by different gram-negative nosocomial pathogens.

Published
2008

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