Identification of Three Essential Regulatory Gene Loci Governing Expression of Staphylococcus epidermidis Polysaccharide Intercellular Adhesin and Biofilm Formation

The formation of adherent multilayered biofilms embedded into a glycocalyx represents an essential factor in the pathogenesis ofStaphylococcus epidermidis biomaterial-related infections. Using biofilm-producingS. epidermidis 1457 and transposon Tn917 carried on plasmid pTV1ts, we isolated nine isogenic biofilm-negative transposon mutants. Transduction byS. epidermidis phage 71 was used to prove the genetic linkage of transposon insertions and altered phenotypes. Mapping of the different transposon insertions by Southern hybridization and pulsed-field gel electrophoresis indicated that these were inserted in four unlinked genetic loci. According to their phenotypes, including quantitative differences in biofilm production in different growth media, in the amount of the polysaccharide intercellular adhesin (PIA) produced, in the hemagglutination titers, and in the altered colony morphology, the mutants could be separated into four phenotypic classes corresponding with the genetic classes. Synthesis of PIA was not detectable with class I and II mutants, whereas the amount of PIA produced reflected the residual degree of biofilm production of class III and IV mutants in different growth media. Chromosomal DNA flanking the transposon insertions of five class I mutants was cloned and sequenced, and the insertions were mapped to different locations oficaADBC , representing the synthetic genes for PIA. Expression oficaADBC from a xylose-dependent promoter in the different isogenic mutant classes reconstituted biofilm production in all mutants. In a Northern blot analysis noicaADBC -specific transcripts were observed in RNA isolated from mutants of classes II, III, and IV. Apparently, in addition toicaADBC , three other gene loci have a direct or indirect regulatory influence on expression of the synthetic genes for PIA on the level of transcription.