Species interactions in mixed-community crystalline biofilms on urinary catheters

doi:10.1099/jmm.0.47395-0

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J Med Microbiol 56 (2007), 1549-1557; DOI: 10.1099/jmm.0.47395-0
© 2007 Society for General Microbiology
ISSN 1473-5644

Species interactions in mixed-community crystalline biofilms on urinary catheters

Sarah M. Macleod and David J. Stickler

Cardiff School of Biosciences, Cardiff University, Cardiff CF10 3TL, UK

Correspondence
David J. Stickler
stickler{at}cardiff.ac.uk

Received 15 May 2007
Accepted 4 July 2007

Previous experimental investigations of the crystalline biofilmsthat colonize and block urinary catheters have focussed on theirformation by pure cultures of Proteus mirabilis. In the urineof patients undergoing long-term catheterization, P. mirabilisis commonly found in mixed communities with other urinary tractpathogens. Little is known about the effect that the other specieshave on the rate at which P. mirabilis encrusts catheters. Inthe present study, a set of data on the nature of the bacterialcommunities on 106 catheter biofilms has been analysed and itwas found that while species such as Providencia stuartii andKlebsiella pneumoniae were commonly associated with P. mirabilis,when Escherichia coli, Morganella morganii or Enterobacter cloacaewere present, P. mirabilis was rarely or never found. The hypothesisthat the absence of P. mirabilis from some biofilm communitiescould be due to its active exclusion by other species has alsobeen examined. Experiments in laboratory models showed thatco-infection of P. mirabilis with M. morganii, K. pneumoniaeor E. coli had no effect on the ability of P. mirabilis to encrustand block catheters. Co-infection with Ent. cloacae or Pseudomonasaeruginosa, however, significantly increased the time that catheterstook to block (P <0.05). The growth of Ent. cloacae, M. morganii,K. pneumoniae or E. coli in the model for 72 h prior tosuperinfection with P. mirabilis significantly delayed catheterblockage. In the case of Ent. cloacae, for example, the meantime to blockage was extended from 28.7 h to 60.7 h(P $≤$ 0.01). In all cases, however, P. mirabilis was able to generatealkaline urine, colonize the biofilms, induce crystal formationand block the catheters. The results suggest that although thereis a degree of antagonism between P. mirabilis and some of theother urinary tract organisms, the effects are temporary andwhatever the pre-existing urinary microbiota, infection withP. mirabilis is thus likely to lead to catheter encrustationand blockage.

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