Characterization of transposon mutants of biofilm-producing Staphylococcus epidermidis impaired in the accumulative phase of biofilm production: genetic …

D Mack, M Nedelmann, A Krokotsch… - Infection and …, 1994 - Am Soc Microbiol
D Mack, M Nedelmann, A Krokotsch, A Schwarzkopf, J Heesemann, R Laufs
Infection and immunity, 1994Am Soc Microbiol
The primary attachment to polymer surfaces followed by accumulation in multilayered cell
clusters leads to production of Staphylococcus epidermidis biofilms, which are thought to
contribute to virulence in biomaterial-related infections. We isolated Tn917 transposon
mutants of biofilm-producing S. epidermidis 13-1, which were completely biofilm negative. In
pulsed-field gel electrophoresis no obvious deletions of the mutants were noted. The Tn917
insertions of mutants M10 and M11 were located on different EcoRI fragments but on …
The primary attachment to polymer surfaces followed by accumulation in multilayered cell clusters leads to production of Staphylococcus epidermidis biofilms, which are thought to contribute to virulence in biomaterial-related infections. We isolated Tn917 transposon mutants of biofilm-producing S. epidermidis 13-1, which were completely biofilm negative. In pulsed-field gel electrophoresis no obvious deletions of the mutants were noted. The Tn917 insertions of mutants M10 and M11 were located on different EcoRI fragments but on identical 60-kb SmaI and 17-kb BamHI chromosomal fragments. Linkage of transposon insertions of mutants M10 and M11 with the altered phenotype was demonstrated by phage transduction, whereas the several other mutants apparently represented spontaneous variants. In a primary attachment assay with polystyrene spheres, no significant difference between any of the mutants and the wild type could be detected. Cell clustering as an indication of intercellular adhesion, which is a prerequisite for accumulation in multilayered cell clusters, was not detected with any mutant. These results demonstrate that the mutants were impaired in the accumulative phase of biofilm production. Mutants M10 and M11 did not produce detectable amounts of a specific polysaccharide antigen (D. Mack, N. Siemssen, and R. Laufs, Infect. Immun. 60:2048-2057, 1992), whereas substantially reduced amounts of antigen were produced by the spontaneous variants. Hexosamine was determined as the major specific component of the antigen enriched by gel filtration of biofilm-producing S. epidermidis 1457 because almost no hexosamine was detected in material prepared from the isogenic biofilm-negative transductant 1457-M11, which differentiates the antigen from other S. epidermidis polysaccharide components. Our results provide direct genetic evidence for a function of the antigen in the accumulative phase of biofilm production by S. epidermidis by mediating intercellular adhesion.
American Society for Microbiology