Dennis G. A. M. Koedijk scite author profile

Cell surface-exposed and secreted proteins are attractive targets for vaccination against pathogenic gram-positive bacteria. To obtain sufficient amounts of such antigens, efficient protein production platforms are needed. In this study, a pipeline for the production and purification of surface-exposed and secreted antigens of the gram-positive bacterial pathogen Staphylococcus aureus is presented. Cytoplasmic or extracellular production of S. aureus antigens was achieved using the Lactococcus lactis strain PA1001, which lacks the major extracellular protease HtrA and the autolysin AcmA to minimize proteolysis and cell lysis, respectively. For most tested S. aureus antigens, secretory production directed by the signal peptide of the major secreted protein Usp45 of L. lactis resulted in higher yields than intracellular production without a signal peptide. Additionally, secretory production of His-tagged antigens allowed their facile one-step purification from the growth medium by metal affinity chromatography. For three of the purified antigens, biological activity was confirmed through enzyme activity assays. We, furthermore, show that the present pipeline can be used to produce staphylococcal antigens with an N-terminal AVI-tag for site-specific labeling with biotin or a C-terminal cell wall-binding domain for cell surface display. We conclude that our L. lactis-based pipeline allows the efficient production of S. aureus antigens and their subsequent purification in one step.

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Human antibody responses against non-covalently cell wall-bound Staphylococcus aureus proteins

Pastrana

Neef

Koedijk

et al. 2018

Sci Rep

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Human antibody responses to pathogens, like Staphylococcus aureus, are important indicators for in vivo expression and immunogenicity of particular bacterial components. Accordingly, comparing the antibody responses to S. aureus components may serve to predict their potential applicability as antigens for vaccination. The present study was aimed at assessing immunoglobulin G (IgG) responses elicited by non-covalently cell surface-bound proteins of S. aureus, which thus far received relatively little attention. To this end, we applied plasma samples from patients with the genetic blistering disease epidermolysis bullosa (EB) and healthy S. aureus carriers. Of note, wounds of EB patients are highly colonized with S. aureus and accordingly these patients are more seriously exposed to staphylococcal antigens than healthy individuals. Ten non-covalently cell surface-bound proteins of S. aureus, namely Atl, Eap, Efb, EMP, IsaA, LukG, LukH, SA0710, Sle1 and SsaA2, were selected by bioinformatics and biochemical approaches. These antigens were recombinantly expressed, purified and tested for specific IgG responses using human plasma. We show that high exposure of EB patients to S. aureus is mirrored by elevated IgG levels against all tested non-covalently cell wall-bound staphylococcal antigens. This implies that these S. aureus cell surface proteins are prime targets for the human immune system.

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Dennis G. A. M. Koedijk

A human monoclonal antibody targeting the conserved staphylococcal antigen IsaA protects mice against Staphylococcus aureus bacteremia

Efficient production of secreted staphylococcal antigens in a non-lysing and proteolytically reduced Lactococcus lactis strain

Human antibody responses against non-covalently cell wall-bound Staphylococcus aureus proteins

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