N. R. Moore scite author profile

Several microbial pathogens augment their invasive potential by binding and activating human plasminogen to generate the proteolytic enzyme plasmin. Yeast cells and cell wall proteins (CWP) of the human pathogenic fungus Candida albicans bound plasminogen with a K(d) of 70 +/- 11 nM and 112 +/- 20 nM respectively. Bound plasminogen could be activated to plasmin by mammalian plasminogen activators; no C. albicans plasminogen activator was detected. Binding of plasminogen to CWP and whole cells was inhibited by epsilon ACA, indicating that binding was predominantly to lysine residues. Candida albicans mutant strains defective in protein glycosylation did not show altered plasminogen binding, suggesting that binding was not mediated via a surface lectin. Binding was sensitive to digestion by basic carboxypeptidase, implicating C-terminal lysine residues in binding. Proteomic analysis identified eight major plasminogen-binding proteins in isolated CWP. Five of these (phosphoglycerate mutase, alcohol dehydrogenase, thioredoxin peroxidase, catalase, transcription elongation factor) had C-terminal lysine residues and three (glyceraldehyde-3-phosphate dehydrogenase, phosphoglycerate kinase and fructose bisphosphate aldolase) did not. Activation of plasminogen could potentially increase the capacity of this pathogenic fungus for tissue invasion and necrosis. Although surface-bound plasmin(ogen) degraded fibrin, no direct evidence for a role in invasion of endothelial matrix or in penetration and damage of endothelial cells was found.

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TAFIa, PAI‐1 and α2‐antiplasmin: complementary roles in regulating lysis of thrombi and plasma clots

Mutch

Thomas

Moore

et al. 2007

Journal of Thrombosis and Haemostasis

110

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To cite this article: Mutch NJ, Thomas L, Moore NR, Lisiak KM, Booth NA. TAFIa, PAI-1 and a 2 -antiplasmin: complementary roles in regulating lysis of thrombi and plasma clots. J Thromb Haemost 2007; 5: 812-7.Summary. PAI-1 and a 2 -antiplasmin (a 2 AP) are the principal direct inhibitors of fibrinolytic proteases. Thrombin activatable fibrinolysis inhibitor (TAFI), a plasma procarboxypeptidase activated by thrombin-thrombomodulin to form TAFIa, also regulates fibrinolysis by modulating fibrin. In this study, the relative contributions of PAI-1, a 2 AP and TAFIa to inhibition of lysis were assessed. In platelet-poor plasma clots, a 2 AP, TAFIa and PAI-1 all inhibited lysis, as shown by the addition of neutralizing antibodies to a 2 AP and PAI-1 ± CPI, a potato carboxypeptidase inhibitor. a 2 AP played the largest role in regulating plasma clot lysis, but neutralization of inhibitors in combinations was more effective in shortening lysis times, with a maximal effect when all three inhibitors were neutralized. In platelet-rich clots, a larger contribution of PAI-1 was evident. Tissue plasminogen activator induced lysis of model thrombi, made from whole blood, was approximately doubled on incorporation of CPI, illustrating a substantial contribution of TAFIa to inhibition of thrombus lysis. Similar increases in thrombus lysis were observed on inclusion of neutralizing antibodies to PAI-1 and a 2 AP, with a 2 AP playing the dominant role. Maximal thrombus lysis occurred upon neutralization of all three inhibitors. These observations suggest that, despite the differences in concentrations and activities of inhibitors, and the different modes of action, the roles of the three are complementary in both plasma clot lysis and thrombus lysis.

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Distribution of plasminogen activator inhibitor (PAI-1) in tissues.

et al. 1991

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Ventilator-Associated Pneumonia Is Characterized by Excessive Release of Neutrophil Proteases in the Lung

Wilkinson

Morris

Kefala

et al. 2012

Chest

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N. R. Moore

Candida albicans binds human plasminogen: identification of eight plasminogen‐binding proteins

TAFIa, PAI‐1 and α2‐antiplasmin: complementary roles in regulating lysis of thrombi and plasma clots

Distribution of plasminogen activator inhibitor (PAI-1) in tissues.

Ventilator-Associated Pneumonia Is Characterized by Excessive Release of Neutrophil Proteases in the Lung

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