Abstract
The two-component regulatory system, SaeRS, controls expression of important virulence factors, including toxins and invasins, which contribute to the pathogenicity of Staphylococcus aureus. Previously, we conducted a transcriptomics study for identification of SaeRS regulon and found that inactivation of SaeRS dramatically enhances the transcription of a novel transcriptional regulator (SA1804). This led us to question whether SA1804 is involved in bacterial pathogenicity by regulating the expression of virulence factors. To address this question, we created sa1804, saeRS, and sa1804/saeRS double deletion mutants in a USA300 community-acquired MRSA strain, 923, and determined their impact on the pathogenicity. The deletion of sa1804 dramatically increased the cytotoxicity and enhanced the capacity of bacteria to invade into the epithelial cells (A549), whereas the deletion of saeRS eliminated the cytotoxicity and abolished the bacterial ability to invade into the epithelial cells. Moreover, the double deletions of sa1804 and saeRS appeared a similar phenotype with the saeRS null mutation. Furthermore, we determined the regulatory mechanism of SA1804 using qPCR and gel-shift approaches. Our data indicate that the novel virulence repressor SA1804 is dependent on the regulation of SaeRS. This study sheds light on the regulatory mechanism of virulence factors and allows for us further elucidate the molecular pathogenesis of S. aureus.
Highlights
Staphylococcus aureus, especially methicillin-resistant S. aureus (MRSA), is a major community and hospital acquired pathogen that can cause superficial infections, including skin and soft tissue lesions (Lowy, 1998), as well as life-threaten infections, such as pneumonia, endocarditis, and toxic shock syndrome (Klevens et al, 2007; Gordon and Lowy, 2008)
Transcriptional Repression of sa1804 By SaeRS Our previous microarray analysis showed that the mutation of saeS significantly induced the transcription of a putative regulator gene, suggesting that SaeR might be a repressor of SA1804 (Liang et al, 2006)
We are the first demonstrating that SA1804 is a repressor of several virulence factors, including hla, efb, and sa1000 in a CA-MRSA USA300 isolate 923
Summary
Staphylococcus aureus, especially methicillin-resistant S. aureus (MRSA), is a major community and hospital acquired pathogen that can cause superficial infections, including skin and soft tissue lesions (Lowy, 1998), as well as life-threaten infections, such as pneumonia, endocarditis, and toxic shock syndrome (Klevens et al, 2007; Gordon and Lowy, 2008). We revealed that SaeRS affects the expression of Efb, a bifunctional protein capable of binding to both extracellular fibrinogen (Peacock et al, 2002) and complement factor C3 (Lee et al, 2004), and the expression of SA1000, a hypothetical fibrinogen-binding protein (Liang et al, 2006) Both Efb and SA1804 contribute to the adherence and internalization of S. aureus by epithelial cells (Liang et al, 2006). The role of the SaeRS as a virulence regulator has been demonstrated in several animal models of infection (Benton et al, 2004; Goerke et al, 2005; Liang et al, 2006; Montgomery et al, 2010)
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