http://journal.frontiersin.org/article/10.3389/fmicb.2017.00004/full
Front Microbiol. 2017 Jan 23;8:4. doi: 10.3389/fmicb.2017.00004. eCollection 2017.
The Active Component of Aspirin, Salicylic Acid, Promotes Staphylococcus aureus Biofilm Formation in a PIA-dependent Manner.
Abstract
Aspirin has provided clear benefits to human health. But salicylic acid (SAL) -the main aspirin biometabolite- exerts several effects on eukaryote and prokaryote cells. SAL can affect, for instance, the expression of
Staphylococcus aureus virulence factors. SAL can also form complexes with iron cations and it has been shown that different iron chelating molecules diminished the formation of
S. aureus biofilm. The aim of this study was to elucidate whether the iron content limitation caused by SAL can modify the
S. aureus metabolism and/or metabolic regulators thus changing the expression of the main polysaccharides involved in biofilm formation. The exposure of biofilm to 2 mM SAL induced a 27% reduction in the intracellular free Fe2+ concentration compared with the controls. In addition, SAL depleted 23% of the available free Fe2+ cation in culture media. These moderate iron-limited conditions promoted an intensification of biofilms formed by strain Newman and by
S. aureus clinical isolates related to the USA300 and USA100 clones. The slight decrease in iron bioavailability generated by SAL was enough to induce the increase of PIA expression in biofilms formed by methicillin-resistant as well as methicillin-sensitive
S. aureus strains.
S. aureus did not produce capsular polysaccharide (CP) when it was forming biofilms under any of the experimental conditions tested. Furthermore, SAL diminished aconitase activity and stimulated the lactic fermentation pathway in bacteria forming biofilms. The polysaccharide composition of
S. aureus biofilms was examined and FTIR spectroscopic analysis revealed a clear impact of SAL in a
codY-dependent manner. Moreover, SAL negatively affected
codY transcription in mature biofilms thus relieving the CodY repression of the
ica operon. Treatment of mice with SAL induced a significant increase of
S aureus colonization. It is suggested that the elevated PIA expression induced by SAL might be responsible for the high nasal colonization observed in mice. SAL-induced biofilms may contribute to
S. aureus infection persistence in vegetarian individuals as well as in patients that frequently consume aspirin.
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Salicylic acid (SAL) is a small molecule derived from plants with pleiotropic effects on eukaryote and prokaryote cells (
Price et al., 2000;
Patrignani and Dovizio, 2015). In addition, SAL is the main biometabolite of aspirin, the popular nonsteroidal anti-inflammatory agent regularly utilized by millions of individuals worldwide due to its known analgesic and cardiovascular protective activities. Furthermore, vegetarian individuals contain similar plasma concentrations of SAL when compared with patients consuming low daily doses of aspirin (
Rajaram, 2003). The expression of virulence factors and regulatory genes is modified by SAL in several bacterial species (
Pomposiello et al., 2001;
Denkin et al., 2005).
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