Platelets have more than one binding site for von Willebrand factor.

Ruggeri, Zaverio M.; Marco, L De; Gatti, Loredana; Bader, R; Montgomery, Robert R.

doi:10.1172/jci110946

Cited by 443 publications

(210 citation statements)

References 35 publications

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“…In the context of endocarditis, the initial vascular injury of the endothelium on heart valves at high shear rates activates coagulation, with VWF mediating the early stages of platelet accumulation by tethering through exposed subendothelial collagen and the platelet GPIb␣ receptor, followed by conversion of Fbg to Fbn within the thrombus (29). Additional binding of platelets by VWF occurs after platelet activation by thrombin and depends on the platelet integrin ␣ IIb ␤ 3 (30). S. aureus concurrently adheres to multiple extracellular matrix proteins, including fibronectin, collagen, and Fbn, through microbial surface components recognizing adhesive matrix molecules (MSCRAMMs) (31).…”

Section: Discussionmentioning

confidence: 99%

Von Willebrand factor-binding protein is a hysteretic conformational activator of prothrombin

Kroh

Panizzi

Bock

2009

Proc. Natl. Acad. Sci. U.S.A.

101

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Von Willebrand factor-binding protein (VWbp), secreted by Staphylococcus aureus, displays secondary structural homology to the 3-helix bundle, D1 and D2 domains of staphylocoagulase (SC), a potent conformational activator of the blood coagulation zymogen, prothrombin (ProT). In contrast to the classical proteolytic activation mechanism of trypsinogen-like serine proteinase zymogens, insertion of the first 2 residues of SC into the NH 2-terminal binding cleft on ProT (molecular sexuality) induces rapid conformational activation of the catalytic site. Based on plasma-clotting assays, the target zymogen for VWbp may be ProT, but this has not been verified, and the mechanism of ProT activation is unknown. We demonstrate that VWbp activates ProT conformationally in a mechanism requiring its Val 1 -Val 2 residues. By contrast to SC, full time-course kinetic studies of ProT activation by VWbp demonstrate that it activates ProT by a substrate-dependent, hysteretic kinetic mechanism. VWbp binds weakly to ProT (K D 2.5 M) to form an inactive complex, which is activated through a slow conformational change by tripeptide chromogenic substrates and its specific physiological substrate, identified here as fibrinogen (Fbg). This mechanism increases the specificity of ProT activation by delaying it in a slow reversible process, with full activation requiring binding of Fbg through an exosite expressed on the activated ProT*⅐VWbp complex. The results suggest that this unique mechanism regulates pathological fibrin (Fbn) deposition to VWF-rich areas during S. aureus endocarditis.coagulation ͉ proteinases ͉ Staphylococcus aureus ͉ zymogens ͉ hysteresis

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Section: Discussionmentioning

confidence: 99%

Von Willebrand factor-binding protein is a hysteretic conformational activator of prothrombin

Kroh

Panizzi

Bock

2009

Proc. Natl. Acad. Sci. U.S.A.

101

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“…The von Willebrand A (vWFA) is a well studied domain participating in shear-induced self-aggregation and in cell adhesion (Ruggeri et al, 1983;Tuckwell, 1999). A number of human diseases are associated with mutations in vWFA domains (Whittaker and Hynes, 2002).…”

Section: The Von Willebrand Factor a (Vwfa) Domainsmentioning

confidence: 99%

“…The vWFA domains have also been implicated in host defense mechanisms and in hemostasis as complement factor C, factor B, integrins LFA-1, Mac-1, VLA-1 and 2, p150 and p95 are part of the immune system that harbor vWF domains (Colombatti and Bonaldo, 1991;Colombatti et al, 1993). A number of proteins such as collagen, GpIbα, and integrin αIibβ3 are known to interact with vWF domains (Ruggeri et al, 1983;Eble and Tuckwell, 2003;Vanhoorelbeke et al, 2003). Many of these interactions play a role in different regimes of fluid dynamics (Shankaran et al, 2003) and have been implicated in adherence to platelets and possibly also to macrophages.…”

Section: The Von Willebrand Factor a (Vwfa) Domainsmentioning

confidence: 99%

Cochlin in the eye: Functional implications

Picciani

Desai

Guduric-Fuchs

et al. 2007

Progress in Retinal and Eye Research

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Aqueous humor is actively produced in the ciliary epithelium of the anterior chamber and has important functions for the eye. Under normal physiological conditions, the inflow and outflow of the aqueous humor are tightly regulated, but in the pathologic state this balance is lost. Aqueous outflow involves structures of the anterior chamber and experiences most resistance at the level of the trabecular meshwork (TM) that acts as a filter. The modulation of the TM structure regulates the filter and its mechanism remains poorly understood. Proteomic analyses have identified cochlin, a protein of poorly understood function, in the glaucomatous TM but not in healthy control TM from human cadaver eyes. The presence of cochlin has subsequently been confirmed by Western and immunohistochemical analyses. Functionally, cochlin undergoes multimerization induced by shear stress and other changes in the microenvironment. Cochlin along with mucopolysaccharide deposits have been found in the TM of glaucoma patients and in the inner ear of subjects affected by the hearing disorder DNFA9, a late onset, progressive disease that also involves alterations in fluid shear regimes. In vitro, cochlin induces aggregation of primary TM cells suggesting a role in cell adhesion, possibly in mechanosensation, and in modulation of the TM filter.

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“…Thrombospondin platelet aggregation (20) cofactor in coagulation (22), not enzymatically active encourages angiogenesis (14) heparin antagonist (16), angiogenesis inhibitor (23) clotting factor, stimulates neutrophils (chemotaxis, degranulation, adhesion) (24) maintains blood volume (25); impairs platelet aggregation (26) platelet adhesion (16) angiogenesis inhibitor (14); platelet adhesion (16) von Willebrand factor (vWF) (platelets, endothelial platelet-platelet adhesion (16) binds to thrombin cells) and ADP (27) Evidently, the platelet is one essential blood component regulating the haemostatic process because of its adhesive, aggregative and clotting abilities that govern the coagulation cascade. For the same reasons, the platelet is also significant in pathological thrombosis.…”

Section: Fibronectinmentioning

confidence: 99%