Abstract
Biofilms are organized communities of bacterial cells that are responsible for the majority of human chronic bacterial infections. Providencia stuartii is a Gram-negative biofilm-forming bacterium involved in high incidence of urinary tract infections in catheterized patients. Yet, the structuration of these biofilms, and their resistance to environmental insults remain poorly understood. Here, we report on planktonic cell growth and biofilm formation by P. stuartii, in conditions that mimic its most common pathophysiological habitat in humans, i.e. the urinary tract. We observed that, in the planktonic state, P. stuartii forms floating communities of cells, prior to attachment to a surface and subsequent adoption of the biofilm phenotype. P. stuartii planktonic and biofilm cells are remarkably resistant to calcium, magnesium and to high concentrations of urea, and show the ability to grow over a wide range of pHs. Experiments conducted on a P. stuartii strain knocked-out for the Omp-Pst2 porin sheds light on the role it plays in the early stages of growth, as well as in the adaptation to high concentration of urea and to varying pH.
Highlights
Bacteria are known to live as organized community of cells termed biofilms
Escherichia coli BL21 DE3 strain was used as a negative control strain and the wild type Providencia stuartii ATCC 29914 strain was obtained from the Pasteur Institute (Paris, France)
Micrographic examination of attached P. stuartii cells reveals that no biofilm forms before the stationary phase (Fig 2A–2C), in agreement with the idea that bacteria form biofilms when faced with an environmental stress
Summary
Bacteria are known to live as organized community of cells termed biofilms. In humans, these supra-cellular structures are responsible for the majority of chronic bacterial infections [1,2]. Prominent examples of biofilm-related infections include catheter-associated infections, the leading cause of secondary nosocomial bacteremia (20%) [3], and cystic fibrosis [4], a genetic disorder that favours the colonisation of aerial tissues by P. aeruginosa. The chronic nature of biofilm-related infections originates from their increased resistance to the immune system and antibiotherapy. The current model for biofilm formation includes five different stages [5], viz.
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