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Staphylococcus aureus controls interleukin-5 release in upper airway inflammation.

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Staphylococcus aureus is a frequent colonizer of the upper airways in chronic rhinosinusitis with nasal polyps, but also resides intramucosally; it has been shown that secreted staphylococcal proteins such as… Click to show full abstract

Staphylococcus aureus is a frequent colonizer of the upper airways in chronic rhinosinusitis with nasal polyps, but also resides intramucosally; it has been shown that secreted staphylococcal proteins such as enterotoxins and serine proteases induce the release of cytokines such as IL-5. We have analyzed nasal polyp tissue freshly obtained during routine surgery, which did or did not contain cultivatable S. aureus, to study spontaneous IL-5 production by nasal polyp tissue over 24 and 72h in tissue culture. In S. aureus-positive samples we interfered by killing the bacteria using antibiotics or S. aureus specific intravenous staphylococcal phages (ISP), active or heat-inactivated. Phage-neutralizing antibodies were used to demonstrate the specificity of the phage-mediated effects. We monitored S. aureus colony forming units, and identified S. aureus proteins by mass spectrometry. We demonstrate that cultivatable S. aureus may be found in type-2 inflamed nasal polyps; the pathogen is replicating within 24h and secretes proteins, including enterotoxins and serine proteases. The presence of S. aureus was associated with a significantly higher release of IL-5. Killing of S. aureus by antibiotics or specific ISP significantly reduced the IL-5 release. The suppressive activity of the bacteriophage on IL-5 be abolished by heat inactivation or anti-phage antibodies. BIOLOGICAL SIGNIFICANCE In this study, we used high resolution mass spectrometry to identify S. aureus proteins directly in infected nasal polyp tissue and nasal polyp tissue incubated over 24 and 72h in culture. We discovered bacterial proteins including enterotoxins and serine proteases like proteins. These experiments indicate a direct role of S. aureus in the regulation of IL-5 production in nasal polyps and may suggest the involvement of bacterial proteins detected in the tissues.

Keywords: staphylococcus aureus; polyp tissue; nasal polyp; tissue; release

Journal Title: Journal of proteomics
Year Published: 2018

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