BMC Microbiology (Mar 2009)

Variations in amount of TSST-1 produced by clinical methicillin resistant <it>Staphylococcus aureus </it>(MRSA) isolates and allelic variation in accessory gene regulator (<it>agr</it>) locus

  • Hasegawa Yoshinori,
  • Hasegawa Tadao,
  • Yamada Keiko,
  • Okamoto Akira,
  • Nagao Miki,
  • Ohta Michio

DOI
https://doi.org/10.1186/1471-2180-9-52
Journal volume & issue
Vol. 9, no. 1
p. 52

Abstract

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Abstract Background Staphylococcus aureus (S. aureus) is an important pathogen associated with both nosocomial and community-acquired infections and its pathogenicity is attributed to its potential to produce virulence factors. Since the amount of toxin produced is related to virulence, evaluating toxin production should be useful for controlling S. aureus infection. We previously found that some strains produce relatively large amounts of TSST-1; however, no reports have described the amount of TSST-1 produced by clinical isolates. Methods Amounts of TSST-1 produced by clinical methicillin resistant S. aureus (MRSA) isolates were measured by Western blotting. We determined their accessory gene regulator (agr) class by PCR and investigated whether TSST-1 production correlates with variations in the class and structure of the agr. Results We found that 75% of surveyed MRSA isolates (n = 152) possessed the tst gene and that 96.7% belonged to agr class 2. The concentrations of TSST-1 secreted into culture supernatants by 34 strains measured by Western blotting differed 170-fold. Sequencing the entire agr locus (n = 9) revealed that some had allelic variations regardless of the amount of TSST-1 produced whereas sequencing the sar, sigma factor B and the tst promoter region revealed no significant changes. Conclusion The amounts of TSST-1 produced by clinical MRSA isolates varied. The present results suggest that TSST-1 production is not directly associated with the agr structure, but is instead controlled by unknown transcriptional/translational regulatory systems, or synthesized by multiple regulatory mechanisms that are interlinked in a complex manner.