Differential Expression and Roles of Staphylococcus aureus Virulence Determinants during Colonization and Disease

Jenkins, Amy; Diep, Binh An; Thuy, Thi; Vo, Nhung H.; Warrener, Paul; Suzich, JoAnn; Stover, C. Kendall; Sellman, Bret R.

doi:10.1128/mbio.02272-14

Cited by 166 publications

(153 citation statements)

References 51 publications

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“…In S. aureus, a well-known pathogen growing in biolm and causing tremendous chronic infections in patients with prostheses or cystic brosis, 28 the most expressed EP is NorA encoded by the norA gene. 29 The NorA pump is a cytoplasmic membrane protein belonging to the Major Facilitator Superfamily and it uses a proton motive force to energize the transport of antimicrobial agents (e.g.…”

Section: 26mentioning

confidence: 99%

Investigation on the effect of known potent S. aureus NorA efflux pump inhibitors on the staphylococcal biofilm formation

et al. 2017

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The emergence of multidrug resistant microorganisms has triggered the impending need of developing effective antibacterial strategies. Staphylococcus epidermidis and the more virulent S. aureus are able to colonize and form biofilms on implanted medical devices causing clinical acute and chronic infections.The aim of the present work was to assess the effect of NorA efflux pump inhibitors (EPIs) on S. aureus and S. epidermidis biofilm formation by using known synthetic NorA EPIs and thus giving support to the hypothesis that efflux pumps could play an intriguing role in Staphylococcus biofilm formation. In particular, three 2-phenylquinolines (1a-c) and a pyrazolobenzothiazine (2), our previously reported NorA EPIs, at concentrations lower than MIC showed a good ability in reducing biofilm formation in S. aureus (ATCC 29213) and S. epidermidis (ATCC 35984). Then, to assess if biofilm formation inhibitors could be combined with an antibacterial to limit biofilm production, the two best compounds 1c and 2 were tested with ciprofloxacin (CPX) and the results showed an excellent synergistic effect against Staphylococcus strains with a biofilm formation inhibition over 60% at low concentrations. Further, to confirm the involvement of the NorA efflux pump in the biofilm production, NorA EPIs 1c and 2 were tested against a modified S. aureus strain overexpressing the NorA efflux pump (SA-1199B) and results highlighted a strong decrease in biofilm mass. In conclusion, cytotoxicity assays on HeLa and HepG2 cells showed that concentrations useful to inhibit biofilm formation in Staphylococcus strains in combination with CPX were lower than the toxic concentrations for human cells.

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Section: 26mentioning

confidence: 99%

Investigation on the effect of known potent S. aureus NorA efflux pump inhibitors on the staphylococcal biofilm formation

et al. 2017

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“…People colonized with S. aureus are more susceptible to infection, which occurs when there is a breach of the skin or mucosal membrane [3, 5–7]. Pathogenic S. aureus isolates have an up-regulation of virulence genes compared to the commensal strains [8, 9]. …”

Section: Introductionmentioning

confidence: 99%

Derepression of SaPIbov1 Is Independent of φNM1 Type 2 dUTPase Activity and Is Inhibited by dUTP and dUMP

Hill

Vlach

Parker

et al. 2017

Journal of Molecular Biology

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Staphylococcus aureus is an opportunistic human pathogen able to transfer virulence genes to other cells through the mobilization of S. aureus pathogenicity islands (SaPIs). SaPIs are derepressed and packaged into phage-like transducing particles by helper phages like 80α or φNM1. Phages 80α and φNM1 encode structurally distinct dUTPases, Dut80α (type 1) and DutNM1 (type 2). Both dUTPases can interact with the SaPIbov1 Stl master repressor, leading to derepression and mobilization. That two structurally distinct dUTPases bind the same repressor led us to speculate that dUTPase activity may be important to the derepression process. In type 1 dUTPases, Stl binding is inhibited by dUTP. The purpose of this study was to assess the involvement of dUTP binding and dUTPase activity in derepression by DutNM1. DutNM1 activity mutants were created and tested for dUTPase activity using a novel NMR-based assay. We found that all DutNM1 null activity mutants interacted with the SaPIbov1 Stl C-terminal domain, formed DutNM1–Stl heterodimers, and caused release of the Pstr promoter. However, promoter release was inhibited in the presence of dUTP or dUMP. We tested two φNM1 mutant phages that had null enzyme activity and found they could still mobilize SaPIbov1. These results show that only the apo form of DutNM1 is active in Stl derepression, and that dUTPase activity is not necessary for mobilization of SaPIbov1 by DutNM1.

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“…One reason for this apparent paradox is the diverse arsenal of virulence factors that clinically relevant S. aureus strains, such as USA300, specifically deploy upon bacterial penetration of dermal and mucosal barriers. For example, transcription of a key virulence factor, Panton-Valentine leukocidin (LukF-PV), is decreased during nasal colonization but is substantially up-regulated during blood and cardiac infection (2). Some virulence genes enhance bacterial survival in blood through a variety of mechanisms, including the scavenging of scarce nutrients, as well as by evading and neutralizing the host immune response.…”

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confidence: 99%

Host-derived fatty acids activate type VII secretion inStaphylococcus aureus

Lopez¹,

Tan²,

Yan³

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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The type VII secretion system (T7SS) of Staphylococcus aureus is a multiprotein complex dedicated to the export of several virulence factors during host infection. This virulence pathway plays a key role in promoting bacterial survival and the long-term persistence of staphylococcal abscess communities. The expression of the T7SS is activated by bacterial interaction with host tissues including blood serum, nasal secretions, and pulmonary surfactant. In this work we identify the major stimulatory factors as host-specific cisunsaturated fatty acids. Increased T7SS expression requires host fatty acid incorporation into bacterial biosynthetic pathways by the S. aureus fatty acid kinase (FAK) complex, and FakA is required for virulence. The incorporated cis-unsaturated fatty acids decrease S. aureus membrane fluidity, and these altered membrane dynamics are partially responsible for T7SS activation. These data define a molecular mechanism by which S. aureus cells sense the host environment and implement appropriate virulence pathways.type VII secretion | Staphylococcus aureus | fatty acids | virulence

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Differential Expression and Roles of Staphylococcus aureus Virulence Determinants during Colonization and Disease

Cited by 166 publications

References 51 publications

Investigation on the effect of known potent S. aureus NorA efflux pump inhibitors on the staphylococcal biofilm formation

Investigation on the effect of known potent S. aureus NorA efflux pump inhibitors on the staphylococcal biofilm formation

Derepression of SaPIbov1 Is Independent of φNM1 Type 2 dUTPase Activity and Is Inhibited by dUTP and dUMP

Host-derived fatty acids activate type VII secretion inStaphylococcus aureus

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