Fiona Clow

Stabilizing isopeptide bonds revealed in Gram-positive bacterial pilus structure

Many bacterial pathogens have long, slender pili through which they adhere to host cells. The crystal structure of the major pilin subunit from the Gram-positive human pathogen Streptococcus pyogenes at 2.2 angstroms resolution reveals an extended structure comprising two all-β domains. The molecules associate in columns through the crystal, with each carboxyl terminus adjacent to a conserved lysine of the next molecule. This lysine forms the isopeptide bonds that link the subunits in native pili, validating the relevance of the crystal assembly. Each subunit contains two lysine-asparagine isopeptide bonds generated by an intramolecular reaction, and we find evidence for similar isopeptide bonds in other cell surface proteins of Gram-positive bacteria. The present structure explains the strength and stability of such Gram-positive pili and could facilitate vaccine development.

Immobilization of proteins to biacore sensor chips using Staphylococcus aureus sortase A

The immobilization of proteins to surfaces is an active area of research due to strong interest in protein-based sensors. Here, we describe a novel method for immobilizing ligand proteins onto Biacore sensor chips using the transpeptidase activity of Staphylococcus aureus sortase A (SrtA). This method provides a robust and gentle approach for the site-directed, covalent coupling of proteins to biosensor chips. Notably, the high specificity of the sortase allows immobilization of proteins from less than pure protein samples allowing short cuts in protein purification protocols.

Virus-like particles and α-galactosylceramide form a self-adjuvanting composite particle that elicits anti-tumor responses.

Virus-like particles (VLP) are effective vehicles for delivery of heterologous antigen to antigen-presenting cells. However VLP alone are insufficiently stimulatory to generate the signals required to facilitate effective priming of naïve T cells. We show that the VLP derived from rabbit hemorrhagic disease virus can bind the galactose-containing adjuvant α-galactosylceramide to form a composite particle for co-delivery of antigen and adjuvant to the same antigen-presenting cell. Vaccination with VLP and α-galactosylceramide activated splenic iNKT cells to produce IFN-γ and IL-4, led to the generation of antigen-specific T cells that protected prophylactically against subcutaneous tumor challenge, and was more effective at generating anti-tumor immune responses than either component individually. These data demonstrate a novel method for immunopotentiating VLP to increase their efficacy in the generation of anti-tumor responses via the innate ligand recognition properties of calicivirus-derived nanoparticles.

Characterization of a Mouse-Adapted Staphylococcus aureus Strain

More effective antibiotics and a protective vaccine are desperately needed to combat the ‘superbug’ Staphylococcus aureus. While in vivo pathogenicity studies routinely involve infection of mice with human S. aureus isolates, recent genetic studies have demonstrated that S. aureus lineages are largely host-specific. The use of such animal-adapted S. aureus strains may therefore be a promising approach for developing more clinically relevant animal infection models. We have isolated a mouse-adapted S. aureus strain (JSNZ) which caused a severe outbreak of preputial gland abscesses among male C57BL/6J mice. We aimed to extensively characterize this strain on a genomic level and determine its virulence potential in murine colonization and infection models. JSNZ belongs to the MLST type ST88, rare among human isolates, and lacks an hlb-converting phage encoding human-specific immune evasion factors. Naive mice were found to be more susceptible to nasal and gastrointestinal colonization with JSNZ than with the human-derived Newman strain. Furthermore, naïve mice required antibiotic pre-treatment to become colonized with Newman. In contrast, JSNZ was able to colonize mice in the absence of antibiotic treatment suggesting that this strain can compete with the natural flora for space and nutrients. In a renal abscess model, JSNZ caused more severe disease than Newman with greater weight loss and bacterial burden. In contrast to most other clinical isolates, JSNZ can also be readily genetically modified by phage transduction and electroporation. In conclusion, the mouse-adapted strain JSNZ may represent a valuable tool for studying aspects of mucosal colonization and for screening novel vaccines and therapies directed at preventing colonization.

Full functional activity of SSL7 requires binding of both complement C5 and IgA.

Staphylococcus aureus is an opportunistic bacterial pathogen responsible for a range of diseases, from local skin infections through to life‐threatening illnesses such as toxic shock syndrome. S. aureus produces an assortment of molecules designed to evade or subvert the host immune system. One example is the 23 kDa staphylococcal superantigen‐like protein 7 (SSL7) that simultaneously binds immunoglobulin A (IgA) and complement C5 to inhibit complement‐mediated hemolytic and bactericidal activity. The avirulent bacterium Lactococcus lactis was engineered to express SSL7 so that its role in bacterial survival could be assessed without interference from other virulence factors. Expression of SSL7 by L. lactis led to significantly enhanced bacterial survival in whole human blood and prevented the membrane attack complex (C5b‐9) forming on the cell wall. To further understand the mechanism of action of SSL7, the activity of wild‐type SSL7 protein was compared with a panel of mutant proteins lacking the capacity to bind IgA, C5, or both IgA and C5. SSL7 potently inhibited in vitro chemotaxis of inflammatory myeloid cells in response to a pathogenic stimulus and when injected into mice, SSL7 blocked the migration of neutrophils into the peritoneum in response to an inoculum of heat‐killed S. aureus. Mutagenesis of the C5‐binding site on SSL7 abolished all inhibitory activity, while mutation of the IgA‐binding site had only partial effects, indicating that while IgA binding enhances activity it is not essential. SSL7 is an important staphylococcal virulence factor with potent anti‐inflammatory properties, which are mediated by targeting complement C5 and IgA.

The Group A Streptococcus serotype M2 pilus plays a role in host cell adhesion and immune evasion.

Group A Streptococcus (GAS), or Streptococcus pyogenes, is a human pathogen that causes diseases ranging from skin and soft tissue infections to severe invasive diseases, such as toxic shock syndrome. Each GAS strain carries a particular pilus type encoded in the variable fibronectin‐binding, collagen‐binding, T antigen (FCT) genomic region. Here, we describe the functional analysis of the serotype M2 pilus encoded in the FCT‐6 region. We found that, in contrast to other investigated GAS pili, the ancillary pilin 1 lacks adhesive properties. Instead, the backbone pilin is important for host cell adhesion and binds several host factors, including fibronectin and fibrinogen. Using a panel of recombinant pilus proteins, GAS gene deletion mutants and Lactococcus lactis gain‐of‐function mutants we show that, unlike other GAS pili, the FCT‐6 pilus also contributes to immune evasion. This was demonstrated by a delay in blood clotting, increased intracellular survival of the bacteria in macrophages, higher bacterial survival rates in human whole blood and greater virulence in a Galleria mellonella infection model in the presence of fully assembled FCT‐6 pili.

Staphylococcal enterotoxin-like X (SElX) is a unique superantigen with functional features of two major families of staphylococcal virulence factors

Staphylococcus aureus is an opportunistic pathogen that produces many virulence factors. Two major families of which are the staphylococcal superantigens (SAgs) and the Staphylococcal Superantigen-Like (SSL) exoproteins. The former are immunomodulatory toxins that induce a Vβ-specific activation of T cells, while the latter are immune evasion molecules that interfere with a wide range of innate immune defences. The superantigenic properties of Staphylococcal enterotoxin-like X (SElX) have recently been established. We now reveal that SElX also possesses functional characteristics of the SSLs. A region of SElX displays high homology to the sialyl-lactosamine (sLacNac)-specific binding site present in a sub-family of SSLs. By analysing the interaction of SElX with sLacNac-containing glycans we show that SElX has an equivalent specificity and host cell binding range to the SSLs. Mutation of key amino acids in this conserved region affects the ability of SElX to bind to cells of myeloid origin and significantly reduces its ability to protect S. aureus from destruction in a whole blood killing (WBK) assay. Like the SSLs, SElX is up-regulated early during infection and is under the control of the S. aureus exotoxin expression (Sae) two component gene regulatory system. Additionally, the structure of SElX in complex with the sLacNac-containing tetrasaccharide sialyl Lewis X (sLeX) reveals that SElX is a unique single-domain SAg. In summary, SElX is an ‘SSL-like’ SAg.

A potential role for staphylococcal and streptococcal superantigens in driving skewing of TCR Vβ subsets in tonsillar hyperplasia

The TCR Vβ repertoire from patients with recurrent tonsillitis and/or tonsillar hyperplasia was examined to determine whether the TCR Vβ composition is suggestive of local superantigen activity and if so, whether it is associated with the presence of superantigen producing bacteria. Tonsil specimens were cultured aerobically to allow identification and isolation of the bacterial pathogens Staphylococcus aureus and Group A Streptococcus. TCR Vβ subset analysis of tonsil leucocytes was performed by flow cytometry. The superantigenic potential of tonsil S. aureus isolates was determined by multiplex PCR and a T-cell mitogenicity assay. Tonsils were collected from 40 patients who were predominantly pre-school-aged children undergoing surgery for either recurrent tonsillitis or tonsillar hyperplasia causing obstructive sleep apnoea. S. aureus was cultured from 23/40 and Group A Streptococcus from 5/40 patients. Both CD4+ and CD8+ TCR Vβ populations were skewed in 17/40 patients. Twelve of these had recurrent tonsillitis of whom 9 also harboured S. aureus. Characterisation of tonsillar S. aureus isolates revealed that many contained genes for one or more potent superantigens and detection of these genes was associated with in vitro mitogenic activity. Skewing of the tonsillar TCR Vβ repertoire was observed at high frequency and was most commonly associated with the presence of S. aureus. Many S. aureus isolates were mitogenic suggesting that they have a potential for local impact on the function of tonsil T cell populations. These results suggest the possibility that anti-staphylococcal antibiotics may be an effective treatment option for some patients.