Abstract
Abstract
Background
Enterococci, known for their disturbing involvement in nosocomial infections, possess a diverse set of virulence factors, regulated by multiple genes. A key virulence regulator is the fecal Streptococcus regulator (Fsr) quorum sensing system. Multiple reports describe the involvement of fsr genes in several virulence mechanisms, notably gelatinase production and biofilm formation; however, the presence of fsr genes does not necessarily predict those virulence phenotypes. This study investigates the factors affecting the relation between molecular detection of fsr genes and accurate prediction of gelatinase activity and biofilm formation intensity.
Methods
One hundred enterococcal samples were collected from patients suffering from urinary tract infections. The isolates were identified through the use of a polymerase chain reaction (PCR) technique targeting the ddl gene. Biofilm formation was quantified by the crystal violet assay, while gelatinase activity was evaluated on gelatin agar plates. PCR was used to detect the fsrA and fsrB genes, as well as the gelatinase enzyme-encoding gene (gelE).
Results
Out of the collected 100 isolates, 93% were identified as Enterococcus faecalis. The isolates formed biofilm with different intensities: 47% were strong biofilm producers, 28% moderate, and 21% weak, while only four isolates (4%) did not form biofilm. Only 14% of all isolates had detectable gelatinase activity. The fsrA and fsrB genes were detected in 26% and 28% of the tested isolates, respectively, while gelE was detected in 57% of the isolates. Whereas no association was found between biofilm formation intensity and fsr locus genes or gelatinase activity, a strong positive correlation (r = 1) was found between the detection of both fsrA and fsrB genes and the gelatinase activity.
Conclusion
fsrA and fsrB have a diagnostic value and may be used as biomarkers for gelatinase activity in E. faecalis.
Publisher
Springer Science and Business Media LLC