Abstract
Biofilm infections can be chronic, life threatening and challenging to eradicate. Understanding in vivo stimuli affecting the biofilm cycle is one step toward targeted prevention strategies. Iron restriction by the host is a stimulus for biofilm formation for some Staphylococcus aureus isolates; however, in some infection scenarios bacteria are exposed to abundant amounts of hemoglobin (Hb), which S. aureus is able to use as iron source. Thus, we hypothesized a role for Hb in the biofilm infection. Microplate “biofilm” assays showed biofilm-matrix production was increased in the presence of hemoglobin when compared to the provision of iron as an inorganic salt. Microscopic analysis of biofilms showed that the provision of iron as hemoglobin consistently caused thicker and more structured biofilms when compared to the effect of the inorganic iron source. Iron responsive biofilm gene expression analysis showed that Agr Quorum Sensing, a known biofilm dispersal marker, was repressed with hemoglobin but induced with an equivalent amount of inorganic iron in the laboratory strain Newman. The gene expression of two biofilm structuring agents, PSMα and PSMβ, differed in the response to the iron source provided and was not correlated to hemoglobin-structured biofilms. A comparison of the model pathogen S. aureus Newman with local clinical isolates demonstrated that while there was a similar phenotypic biofilm response to hemoglobin, there was substantial variation in the expression of key biofilm dispersal markers, suggesting an underappreciated variation in biofilm regulome among S. aureus isolates and that no general inferences can be made by studying the behavior of single strains.
Highlights
The ability to coordinate the expression of diverse virulence factors contributes to the broad range of infections caused by Staphylococcus aureus
These results suggest that a first encounter with hemoglobin might be sensed as a signal to quickly induce biofilm formation by matrix production in S. aureus Newman
Iron starvation has a profound effect on bacterial gene expression, often triggering a more virulent phenotype aimed at acquiring more iron (Ratledge and Dover, 2000; Troxell and Hassan, 2013)
Summary
The ability to coordinate the expression of diverse virulence factors contributes to the broad range of infections caused by Staphylococcus aureus. The in vitro studies of biofilms do not, provide a complete model of biofilm activities in disease as all necessarily include compromises (Otto, 2013). One limitation many of these studies have made is in the medium used, with rich laboratory media providing conditions that promote biofilm formation (Boles et al, 2010; Atshan et al, 2013). A review of the effect of growth environment upon the control of virulence gene expression does not demonstrate a good correlation between the situation in vitro and situation in disease. The properties of genetic tractability, gene knockout availability and genome sequence offer considerable advantages; there are disadvantages associated with reliance upon laboratory adapted strains (Fux et al, 2005)
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