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Infection and Immunity, March 2001, p. 1322-1328, Vol. 69, No. 3
Department of Microbiology, Technical
University of Denmark, DK-2800 Lyngby, Denmark
Received 17 August 2000/Returned for modification 18 October
2000/Accepted 23 November 2000
Type 1 fimbriae are surface-located adhesion organelles of
Escherichia coli that are directly associated with
virulence of the urinary tract. They mediate
D-mannose-sensitive binding to different host surfaces by
way of the minor fimbrial component FimH. Naturally occurring variants
of FimH that bind strongly to terminally exposed monomannose residues
have been associated with a pathogenicity-adaptive phenotype that
enhances E. coli colonization of extraintestinal locations
such as the urinary tract. The FimH adhesin also promotes biofilm
formation in a mannose-inhibitable manner on abiotic surfaces under
static growth conditions. In this study, we used random mutagenesis
combined with a novel selection-enrichment technique to
specifically identify mutations in the FimH adhesin that confer on
E. coli the ability to form biofilms under hydrodynamic flow (HDF) conditions. We identified three FimH variants from our
mutant library that could mediate an HDF biofilm formation phenotype to various degrees. This phenotype was induced by the cumulative effect of multiple changes throughout the receptor-binding region of the protein. Two of the HDF biofilm-forming FimH variants were insensitive to mannose inhibition and represent novel phenotypes not previously identified in naturally occurring isolates.
Characterization of our enriched clones revealed some similarities to
amino acid alterations that occur in urinary tract infection (UTI)
strains. Subsequent screening of a selection of UTI FimH variants
demonstrated that they too could promote biofilm formation on abiotic
surfaces under HDF conditions. Interestingly, the same correlation
was not observed for commensal FimH variants. FimH is a
multifaceted protein prone to rapid microevolution. In
addition to its previously documented roles in adherence and invasion,
we have now demonstrated its function in biofilm formation on abiotic
surfaces subjected to HDF conditions. The study indicates that UTI FimH
variants possess adaptations that enhance biofilm formation and
suggests a novel role for FimH in UTIs associated with medical implants such as catheters.
0019-9567/01/$04.00+0 DOI: 10.1128/IAI.69.3.1322-1328.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.
Biofilm Formation in a Hydrodynamic
Environment by Novel FimH Variants and Ramifications for
Virulence
*
Corresponding author. Mailing address: Department of
Microbiology, Bldg. 301, Technical University of Denmark, DK-2800
Lyngby, Denmark. Phone: 45 45 25 25 06. Fax: 45 45 93 28 09. E-mail:
impk{at}pop.dtu.dk.
Infection and Immunity, March 2001, p. 1322-1328, Vol. 69, No. 3
0019-9567/01/$04.00+0 DOI: 10.1128/IAI.69.3.1322-1328.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.
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