Your search keyword '"Sanderson-Smith, Martina L."' showing total 5 results

1. Site-restricted plasminogen activation mediated by group A streptococcal streptokinase variants.

Author

Cook SM, Skora A, Walker MJ, Sanderson-Smith ML, and McArthur JD

Subjects

Catalytic Domain, Plasminogen metabolism, Streptococcus pyogenes enzymology, Streptokinase metabolism

Abstract

SK (streptokinase) is a secreted plasminogen activator and virulence factor of GAS (group A Streptococcus). Among GAS isolates, SK gene sequences are polymorphic and are grouped into two sequence clusters (cluster type-1 and cluster type-2) with cluster type-2 being further classified into subclusters (type-2a and type-2b). In the present study, we examined the role of bacterial and host-derived cofactors in SK-mediated plasminogen activation. All SK variants, apart from type-2b, can form an activator complex with Glu-Plg (Glu-plasminogen). Specific ligand-binding-induced conformational changes in Glu-Plg mediated by fibrinogen, PAM (plasminogen-binding group A streptococcal M protein), fibrinogen fragment D or fibrin, were required for type-2b SK to form a functional activator complex with Glu-Plg. In contrast with type-1 and type-2a SK, type-2b SK activator complexes were inhibited by α2-antiplasmin unless bound to fibrin or to the GAS cell-surface via PAM in combination with fibrinogen. Taken together, these data suggest that type-2b SK plasminogen activation may be restricted to specific microenvironments within the host such as fibrin deposits or the bacterial cell surface through the action of α2-antiplasmin. We conclude that phenotypic SK variation functionally underpins a pathogenic mechanism whereby SK variants differentially focus plasminogen activation, leading to specific niche adaption within the host.

Published

2014

2. Allelic variants of streptokinase from Streptococcus pyogenes display functional differences in plasminogen activation.

Author

McArthur JD, McKay FC, Ramachandran V, Shyam P, Cork AJ, Sanderson-Smith ML, Cole JN, Ringdahl U, Sjöbring U, Ranson M, and Walker MJ

Subjects

Enzyme Activation physiology, Genetic Variation, Humans, Phylogeny, Streptococcus pyogenes genetics, Plasminogen metabolism, Streptococcus pyogenes enzymology, Streptokinase genetics

Abstract

A common mammalian defense mechanism employed to prevent systemic dissemination of invasive bacteria involves occlusion of local microvasculature and encapsulation of bacteria within fibrin networks. Acquisition of plasmin activity at the bacterial cell surface circumvents this defense mechanism, allowing invasive disease initiation. To facilitate this process, S. pyogenes secretes streptokinase, a plasminogen-activating protein. Streptokinase polymorphism exhibited by S. pyogenes isolates is well characterized. However, the functional differences displayed by these variants and the biological significance of this variation has not been elucidated. Phylogenetic analysis of ska sequences from 28 S. pyogenes isolates revealed 2 main sequence clusters (clusters 1 and 2). All strains secreted streptokinase, as determined by Western blotting, and were capable of acquiring cell surface plasmin activity after incubation in human plasma. Whereas culture supernatants from strains containing cluster 1 ska alleles also displayed soluble plasminogen activation activity, supernatants from strains containing cluster 2 ska alleles did not. Furthermore, plasminogen activation activity in culture supernatants from strains containing cluster 2 ska alleles could only be detected when plasminogen was prebound with fibrinogen. This study indicates that variant streptokinase proteins secreted by S. pyogenes isolates display differing plasminogen activation characteristics and may therefore play distinct roles in disease pathogenesis.

Published

2008

3. Biological functions of GCS3, a novel plasminogen-binding protein of Streptococcus dysgalactiae ssp. equisimilis.

Author

Bergmann, René, Dinkla, Katrin, Patric Nitsche-Schmitz, D., Graham, Rikki M.A., Lüttge, Melanie, Sanderson-Smith, Martina L., Nerlich, Andreas, Rohde, Manfred, and Chhatwal, Gursharan S.

Subjects

PLASMINOGEN, CARRIER proteins, STREPTOCOCCUS dysgalactiae, PATHOGENIC microorganisms, STREPTOKINASE, INFECTION, PHARYNX, STREPTOCOCCUS, FIBRINOLYTIC agents

Abstract

Abstract: Increasing awareness of the relevance of Streptococcus dysgalactiae ssp. equisimilis as a human pathogen motivates the analysis of its pathomechanisms. One of the mechanisms that increases infectivity and dissemination of several streptococcal species is the recruitment and subsequent activation of host plasminogen on the streptococcal surface. This study identified GCS3 as a novel plasminogen-binding M protein of S. dysgalactiae ssp. equisimilis and revealed a difference in the mode of binding as compared to the plasminogen-binding protein PAM of S. pyogenes. In contrast to PAM, GCS3 did not bind to the kringle 1–3 region of plasminogen. Despite this difference, GCS3 exerts the same function of recruiting plasminogen to the streptococcal surface, which can be activated by streptokinase and host plasminogen activators to serve as a spreading factor. Moreover, we demonstrate a role of GCS3 in plasminogen-dependent streptococcal adherence to human pharyngeal cells (cell line Detroit 562) that indicates an additional function of the protein as an adhesin in the oral cavity. [ABSTRACT FROM AUTHOR]

Published

2011

4. Effects on human plasminogen conformation and activation rate caused by interaction with VEK-30, a peptide derived from the group A streptococcal M-like protein (PAM)

Author

Figuera-Losada, Mariana, Ranson, Marie, Sanderson-Smith, Martina L., Walker, Mark J., Castellino, Francis J., and Prorok, Mary

Subjects

*PLASMINOGEN, *ACTIVATION (Chemistry), *PEPTIDES, *STREPTOCOCCUS, *STREPTOKINASE, *PLASMIN, *SERINE proteinases, *BINDING sites

Abstract

Abstract: In vertebrates, fibrinolysis is primarily carried out by the serine protease plasmin (Pm), which is derived from activation of the zymogen precursor, plasminogen (Pg). One of the most distinctive features of Pg/Pm is the presence of five homologous kringle (K) domains. These structural elements possess conserved Lys-binding sites (LBS) that facilitate interactions with substrates, activators, inhibitors and receptors. In human Pg (hPg), K2 displays weak Lys affinity, however the LBS of this domain has been implicated in an atypical interaction with the N-terminal region of a bacterial surface protein known as PAM (Pg-binding group A streptococcal M-like protein). A direct correlation has been established between invasiveness of group A streptococci and their ability to bind Pg. It has been previously demonstrated that a 30-residue internal peptide (VEK-30) from the N-terminal region of PAM competitively inhibits binding of the full-length parent protein to Pg. We have attempted to determine the effects of this ligand–protein interaction on the regulation of Pg zymogen activation and conformation. Our results show minimal effects on the sedimentation velocity coefficients (S°20,w) of Pg when associated to VEK-30 and a direct relationship between the concentration of VEK-30 or PAM and the activation rate of Pg. These results are in contrast with the major conformational changes elicited by small-molecule activators of Pg, and point towards a novel mechanism of Pg activation that may underlie group A streptococcal (GAS) virulence. [Copyright &y& Elsevier]

Published

2010

5. Characterizing the role of tissue-type plasminogen activator in a mouse model of Group A streptococcal infection.

Author

Ly, Diane, Donahue, Deborah, Walker, Mark J., Ploplis, Victoria A., McArthur, Jason D., Ranson, Marie, Castellino, Francis J., and Sanderson-Smith, Martina L.

Subjects

*TISSUE plasminogen activator, *STREPTOCOCCAL diseases, *PLASMINOGEN activators, *PLASMINOGEN, *STREPTOCOCCUS pyogenes, *PLASMIN, *MICE

Abstract

Plasmin(ogen) acquisition is critical for invasive disease initiation by Streptococcus pyogenes (GAS). Host urokinase plasminogen activator (uPA) plays a role in mediating plasminogen activation for GAS dissemination, however the contribution of tissue-type plasminogen activator (tPA) to GAS virulence is unknown. Using novel tPA-deficient ALBPLG1 mice, our study revealed no difference in mouse survival, bacterial dissemination or the pathology of GAS infection in the absence of tPA in AlbPLG1/tPA −/− mice compared to AlbPLG1 mice. This study suggests that tPA has a limited role in this humanized model of GAS infection, further highlighting the importance of its counterpart uPA in GAS disease. [ABSTRACT FROM AUTHOR]

Published

2019