Lena Thomer scite author profile

Staphylococcus aureus , a Gram-positive bacterium colonizing nares, skin, and the gastrointestinal tract, frequently invades the skin, soft tissues, and bloodstreams of humans. Even with surgical and antibiotic therapy, bloodstream infections are associated with significant mortality. The secretion of coagulases, proteins that associate with and activate the host hemostatic factor prothrombin, and the bacterial surface display of agglutinins, proteins that bind polymerized fibrin, are key virulence strategies for the pathogenesis of S. aureus bloodstream infections, which culminate in the establishment of abscess lesions. Pathogen-controlled processes, involving a wide spectrum of secreted factors, are responsible for the recruitment and destruction of immune cells, transforming abscess lesions into purulent exudate, with which staphylococci disseminate to produce new infectious lesions or to infect new hosts. Research on S. aureus bloodstream infections is a frontier for the characterization of protective vaccine antigens and the development of immune therapeutics aiming to prevent disease or improve outcomes.

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Multiple Ligands of von Willebrand Factor-binding Protein (vWbp) Promote Staphylococcus aureus Clot Formation in Human Plasma

Thomer

Schneewind

Missiakas

2013

Journal of Biological Chemistry

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Background: Staphylococcus aureus manipulates blood coagulation by secreting von Willebrand factor binding protein (vWbp) and coagulase. Results: vWbp forms a macromolecular complex with prothrombin, fibrinogen, factor XIII, and fibronectin. Conclusion: vWbp activates FXIII in a non-proteolytic manner and recruits fibronectin to staphylococcal clots. Significance: Activation of FXIII by vWbp represents a novel virulence strategy to promote formation of cross-linked fibrin cables in human plasma.

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Antibodies against a secreted product of Staphylococcus aureus trigger phagocytic killing

Thomer

Emolo

Thammavongsa

et al. 2016

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Vaccines and antibody therapeutics targeting staphylococcal surface molecules have failed to achieve clinical efficacy against MRSA infection. Here, Thomer et al. show that the R domain of prothrombin directs fibrinogen to the surface of S. aureus, which generates a protective coat for the pathogen, inhibiting phagocytosis by immune cells. The use of R-specific antibodies allows for immune cell recognition and protects mice against lethal bloodstream infections by broad spectrum MRSA isolates.

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Protein A Suppresses Immune Responses during Staphylococcus aureus Bloodstream Infection in Guinea Pigs

Kim

Falugi

Thomer

et al. 2015

mBio

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Staphylococcus aureus infection is not associated with the development of protective immunity, and disease relapses occur frequently. We hypothesize that protein A, a factor that binds immunoglobulin Fcγ and cross-links VH3 clan B cell receptors (IgM), is the staphylococcal determinant for host immune suppression. To test this, vertebrate IgM was examined for protein A cross-linking. High VH3 binding activity occurred with human and guinea immunoglobulin, whereas mouse and rabbit immunoglobulins displayed little and no binding, respectively. Establishing a guinea pig model of S. aureus bloodstream infection, we show that protein A functions as a virulence determinant and suppresses host B cell responses. Immunization with SpAKKAA, which cannot bind immunoglobulin, elicits neutralizing antibodies that enable guinea pigs to develop protective immunity.Importance Staphylococcus aureus is the leading cause of soft tissue and bloodstream infections; however, a vaccine with clinical efficacy is not available. Using mice to model staphylococcal infection, earlier work identified protective antigens; however, corresponding human clinical trials did not reach their endpoints. We show that B cell receptor (IgM) cross-linking by protein A is an important immune evasion strategy of S. aureus that can be monitored in a guinea pig model of bloodstream infection. Further, immunization with nontoxigenic protein A enables infected guinea pigs to elicit antibody responses that are protective against S. aureus. Thus, the guinea pig model may support preclinical development of staphylococcal vaccines.

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Lena Thomer

Pathogenesis of Staphylococcus aureus Bloodstream Infections

Multiple Ligands of von Willebrand Factor-binding Protein (vWbp) Promote Staphylococcus aureus Clot Formation in Human Plasma

Antibodies against a secreted product of Staphylococcus aureus trigger phagocytic killing

Protein A Suppresses Immune Responses during Staphylococcus aureus Bloodstream Infection in Guinea Pigs

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