A role for sigma factor B in the emergence of Staphylococcus aureus small-colony variants and elevated biofilm production resulting from an exposure to aminoglycosides.

Staphylococcus aureus small-colony variants (SCVs) and biofilms are linked to chronic infections. It is known that the presence of aminoglycoside antibiotics may contribute to the emergence of SCVs and it is thought that molecular mechanisms are involved in the ability of S. aureus to adopt this phenotype. No study has addressed the possible role of the stress- and colonization-related alternative sigma factor B (SigB) in the emergence of SCVs, although a sustained SigB activity was reported in these variants. Here, we demonstrate that SigB is involved in the emergence of SCVs resulting from an exposure to a sub-inhibitory concentration of aminoglycosides. Monitoring of gene expression in an aminoglycoside-treated prototypical strain or in clinical SCVs showed the activation of SigB, whereas the accessory gene regulator (agr) system was not. Furthermore, gentamicin-treated prototypical bacteria and SCVs had an increased ability to form biofilm only in a SigB functional background. The administration of a sub-inhibitory concentration of gentamicin significantly increased the formation of SCVs for a prototypical strain but not for the sigB mutant in a mouse model of S. aureus-induced mastitis. Collectively, our results show that SigB may positively influence the appearance of S. aureus SCVs and the production of biofilm upon aminoglycoside exposure.

Transcription of virulence factors in Staphylococcus aureus small-colony variants isolated from cystic fibrosis patients is influenced by SigB.

Staphylococcus aureus small-colony variants (SCVs) are believed to account in part for the persistence of S. aureus during chronic infections. Little is understood about the gene expression profile that may explain the phenotype and distinguish SCVs from prototype S. aureus strains. In this study, DNA array transcriptional profiles of clinical SCVs isolated from the airways of cystic fibrosis patients were obtained and compared to those obtained from a laboratory-derived SCV strain (i.e., a respiratory-deficient hemB mutant) and prototype S. aureus strains. The genes commonly up-regulated in both hemB and clinical SCVs were found to be implicated in fermentation and glycolysis pathways. The well-known virulence regulator agr was not activated in SCVs, and such strains had low levels of alpha-toxin (hla) gene expression. Clinical SCVs also had a transcriptional signature of their own. Of striking interest is that many genes, most of them under the positive control of the alternate sigma factor SigB, were specifically up-regulated and differed in that way from that seen in prototype S. aureus and the hemB mutant. Since SigB influences up-regulation of adhesin type genes while indirectly down-regulating exoproteins and toxins, we evaluated the internalization and persistence of SCVs in mammalian cells. Results showed that clinical SCVs persisted much more efficiently in cells than the hemB and prototype strains and that a sigB mutant was a poor persister. Thus, it appears that the agr locus plays a minor role in the regulation of the virulon of SCVs, unlike SigB, which may have a key role in intracellular persistence.