Severina Elena scite author profile

The Clostridium difficile toxins A and B are primarily responsible for symptoms of C. difficile associated disease and are prime targets for vaccine development. We describe a plasmid-based system for the production of genetically modified toxins in a non-sporulating strain of C. difficile that lacks the toxin genes tcdA and tcdB. TcdA and TcdB mutations targeting established glucosyltransferase cytotoxicity determinants were introduced into recombinant plasmids and episomally expressed toxin mutants purified from C. difficile transformants. TcdA and TcdB mutants lacking glucosyltransferase and autoproteolytic processing activities were ~10 000-fold less toxic to cultured human IMR-90 cells than corresponding recombinant or native toxins. However, both mutants retained residual cytotoxicity that could be prevented by preincubating the antigens with specific antibodies or by formalin treatment. Such non-toxic formalin-treated mutant antigens were immunogenic and protective in a hamster model of infection. The remaining toxicity of untreated TcdA and TcdB mutant antigens was associated with cellular swelling, a phenotype consistent with pore-induced membrane leakage. TcdB substitution mutations previously shown to block vesicular pore formation and toxin translocation substantially reduced residual toxicity. We discuss the implications of these results for the development of a C. difficile toxoid vaccine.

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A Recombinant Clumping Factor A-Containing Vaccine Induces Functional Antibodies to Staphylococcus aureus That Are Not Observed after Natural Exposure

Hawkins

Kodali

Matsuka

et al. 2012

Clin Vaccine Immunol

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Staphylococcus aureus is a Gram-positive pathogen that causes devastating disease and whose pathogenesis is dependent on interactions with host cell factors. Staphylococcal clumping factor A (ClfA) is a highly conserved fibrinogen (Fg)-binding protein and virulence factor that contributes to host tissue adhesion and initiation of infection. ClfA is being investigated as a possible component of a staphylococcal vaccine. We report the development of an Fg-binding assay that is specific for ClfA-mediated binding. Using the assay, we show that despite the presence of anti-ClfA antibodies, human sera from unvaccinated subjects are unable to prevent the binding of S. aureus to an Fg-coated surface. In contrast, antibodies elicited by a recombinant ClfA-containing vaccine were capable of blocking the ClfA-dependent binding of a diverse and clinically relevant collection of staphylococcal strains to Fg. These functional antibodies were also able to displace S. aureus already bound to Fg, suggesting that the ligand-binding activity of ClfA can be effectively neutralized through vaccination.

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Demonstration of the preclinical correlate of protection for Staphylococcus aureus clumping factor A in a murine model of infection

Scully

Timofeyeva

Keeney

et al. 2015

Vaccine

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The Staphylococcus aureus virulence factor clumping factor A (ClfA) is a component of an investigational S. aureus prophylactic vaccine. ClfA enables S. aureus to bind to fibrinogen and platelets during the initial stages of invasive disease. Here we demonstrate that ectopic expression of ClfA is sufficient to render nonpathogenic Lactococcus lactis lethal in a murine model of systemic infection. In contrast, L. lactis expressing ClfAY338A, which cannot bind fibrinogen, did not cause death in the mice. Pathogenicity was also prevented by immunization with ClfA. This model was then used to define a preclinical correlate of protection by measuring functional antibody in a S. aureus fibrinogen binding inhibition assay (FBI) and correlating that titer with protective outcomes. Although many humans have pre-existing antibodies that bind to ClfA, only sera with a threshold functional titer in the FBI were protective in this preclinical model. This confirms that fibrinogen binding is critical for ClfA-mediated pathogenesis and demonstrates that functional antibodies against ClfA are sufficient to protect against ClfA-mediated pathogenesis in vivo, enabling the definition of a preclinical correlate of protection for ClfA-containing vaccines based on FBI titer.

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High Resolution Mapping of Bactericidal Monoclonal Antibody Binding Epitopes on Staphylococcus aureus Antigen MntC

et al. 2016

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The Staphylococcus aureus manganese transporter protein MntC is under investigation as a component of a prophylactic S.aureus vaccine. Passive immunization with monoclonal antibodies mAB 305-78-7 and mAB 305-101-8 produced using MntC was shown to significantly reduce S. aureus burden in an infant rat model of infection. Earlier interference mapping suggested that a total of 23 monoclonal antibodies generated against MntC could be subdivided into three interference groups, representing three independent immunogenic regions. In the current work binding epitopes for selected representatives of each of these interference groups (mAB 305-72-5 – group 1, mAB 305-78-7 – group 2, and mAB 305-101-8 – group 3) were mapped using Hydrogen-Deuterium Exchange Mass Spectrometry (DXMS). All of the identified epitopes are discontinuous, with binding surface formed by structural elements that are separated within the primary sequence of the protein but adjacent in the context of the three-dimensional structure. The approach was validated by co-crystallizing the Fab fragment of one of the antibodies (mAB 305-78-7) with MntC and solving the three-dimensional structure of the complex. X-ray results themselves and localization of the mAB 305-78-7 epitope were further validated using antibody binding experiments with MntC variants containing substitutions of key amino acid residues. These results provided insight into the antigenic properties of MntC and how these properties may play a role in protecting the hostagainst S. aureus infection by preventing the capture and transport of Mn2+, a key element that the pathogen uses to evade host immunity.

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Factor XIIIa Mediated Attachment of S. aureus Fibronectin-Binding Protein A (FnbA) to Fibrin: Identification of Gln103 as a Major Cross-Linking Site

et al. 2006

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In the present study we investigated the role of factor XIIIa reactive Gln and Lys sites of staphylococcal FnbA receptor in cross-linking reaction with alpha chains of fibrin. For this purpose we produced two recombinant FnbA mutants in which either a single Gln103 site (1Q FnbA) or all identified reactive Gln103, 105, 783, 830 and Lys157, 503, 620, 762 sites (4Q4K FnbA) were substituted with Ala residues. The results of FXIIIa-catalyzed incorporation of dansylcadaverine and dansylated peptide patterned on the NH2-terminal segment of fibronectin revealed that the reactivity of Gln substrate sites was drastically reduced in 1Q FnbA and 4Q4K FnbA mutants, while the reactivity of Lys substrate sites was only moderately decreased in 4Q4K FnbA. When it was tested in the FXIIIa-mediated fibrin cross-linking reaction, the 1Q FnbA mutant exhibited about 70-85% reduction in reactivity compared to that of the wild-type FnbA. These results demonstrate that FnbA participates in cross-linking to alpha chains of fibrin predominantly via its Gln103 reactive site. Several minor sites, including residues replaced in 4Q4K FnbA mutant, contributed to an additional 15-30% of the total fibrin cross-linking reactivity of FnbA. Comparison of amino acid sequences that follow the major reactive Gln site in FnbA and several known substrate proteins revealed that FXIIIa displays a preference for the glutamine residue in an xQAxBxPx sequence, where Q represents reactive glutamine, x is any amino acid residue, A is a polar residue, B is either valine or leucine, and P is proline.

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Severina Elena

A novel approach to generate a recombinant toxoid vaccine against Clostridium difficile

A Recombinant Clumping Factor A-Containing Vaccine Induces Functional Antibodies to Staphylococcus aureus That Are Not Observed after Natural Exposure

Demonstration of the preclinical correlate of protection for Staphylococcus aureus clumping factor A in a murine model of infection

High Resolution Mapping of Bactericidal Monoclonal Antibody Binding Epitopes on Staphylococcus aureus Antigen MntC

Factor XIIIa Mediated Attachment of S. aureus Fibronectin-Binding Protein A (FnbA) to Fibrin: Identification of Gln103 as a Major Cross-Linking Site

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