Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0014118 (
endocarditis
)
15,629
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Indirect evidence suggests that the blood platelet is important in the pathogenesis of experimental infective
endocarditis
. Mechanical injury to the endocardial surface causes deposition of fibrin and platelets; injected microorganisms quickly localize to this lesion.
Endocarditis
pathogens also bind to and activate platelets. We used our previously described animal model for inducing infective
endocarditis
in normal pigs and applied it to animals with severe
von Willebrand disease
. The model uses catheter-induced trauma to the aortic valve and endocardium, followed by intravenous injection of group C streptococci. Control animals all showed typical clinical and laboratory evidence of
endocarditis
. In contrast, in pigs with
von Willebrand disease
(n = 4)
endocarditis
failed to develop. Studies in vitro of platelet-bacteria interactions showed that platelets derived from both normal and diseased pigs were equal in their ability to bind to and be activated by group C streptococci. These data suggest that normal platelet function is important in the pathogenesis of experimental infective
endocarditis
.
...
PMID:Pigs with von Willebrand disease may be resistant to experimental infective endocarditis. 140 25
Since infective
endocarditis
may affect individuals without pre-existing valvar heart disease, and Staphylococcus aureus is the organism most commonly involved, the binding characteristics of S aureus to several components of normal vascular endothelium and subendothelium were studied. S aureus adhered specifically to endothelial monolayers (6.08(1.10)%; p less than 0.005), fibronectin (5.43(0.81)%; p less than 0.001), fibrinogen (7.13(1.43)%; p less than 0.001), and acid soluble calf skin collagen (2.38(0.90)%; p less than 0.001). S aureus also adhered specifically to
Von Willebrand
factor (1.62(0.28)%, p less than 0.001). Protein A containing (Cowan I) and deficient (Wood) strains of S aureus adhered similarly to all surfaces and substrates (NS). Escherichia coli adhered poorly. Immunofluorescence microscopy of preconfluent endothelial cells identified an extensive pericellular fibronectin network at regions of cell to cell contact. Light microscopy showed S aureus binding solely within these regions. Therefore, the ability of S aureus to infect valvar endothelium may be dependent on the presence of a fibronectin receptor. The existence of specific receptor for S aureus on the endothelial cell surface itself remains undetermined.
...
PMID:Bacterial tissue tropism: an in vitro model for infective endocarditis. 328 1
The ability of certain strains of Streptococcus sanguis to aggregate human platelets in vitro may be related to their virulence in the pathogenesis of infective
endocarditis
. We have studied the mechanisms of aggregation of human platelets by S. sanguis strain NCTC 7863. Platelet aggregation follows incubation of S. sanguis cells with platelet-rich plasma from normal, healthy adults, after a lag of 7-19 min. Platelet aggregation was accompanied by 5-hydroxytryptamine release and thromboxane B2 production. Aggregation was prevented by aspirin and by EDTA. Platelets from two patients with Glanzmann's thrombasthenia did not respond to bacteria. Fixed, washed platelets resuspended in normal plasma were not agglutinated by S. sanguis. Blocking the glycoprotein Ib receptor with a monoclonal antibody inhibited aggregation of PRP. However, S. sanguis did not induce von Willebrand factor (vWF) binding to platelets; nor did the bacteria prevent ristocetin-induced platelet agglutination or vWF binding. The aggregation response was not related to plasma vWF activity levels in normal subjects or in patients with
von Willebrand's disease
. The platelet response to S. sanguis therefore resembles true aggregation, requiring the cyclo-oxygenase pathway and the presence of glycoprotein IIb/IIIa. The mechanism also involves glycoprotein Ib, but not apparently through irreversible binding of vWF.
...
PMID:Mechanisms of platelet aggregation by Streptococcus sanguis, a causative organism in infective endocarditis. 833 84
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 microM) 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*.VWbp complex. The results suggest that this unique mechanism regulates pathological fibrin (Fbn) deposition to VWF-rich areas during S. aureus
endocarditis
.
...
PMID:Von Willebrand factor-binding protein is a hysteretic conformational activator of prothrombin. 1941 90
Von Willebrand
factor-binding protein (vWbp), secreted by
Staphylococcus aureus
(
S. aureus
), can activate host prothrombin, convert fibrinogen to fibrin clots, induce blood clotting, and contribute to pathophysiology of
S. aureus
-related diseases, including infective
endocarditis
, staphylococcal sepsis and pneumonia. Therefore, vWbp is an promising drug target in the treatment of
S. aureus-
related infections. Here, we report that dryocrassin ABBA (ABBA), a natural compound derived from
Dryopteris crassirhizoma
, can significantly inhibit the coagulase activity of vWbp
in vitro
by directly interacting with vWbp without killing the bacteria or inhibiting the expression of the vWbp. Using molecular dynamics simulations, we demonstrate that ABBA binds to the "central cavity" in the elbow of vWbp by interacting with Arg-70, His-71, Ala-72, Gly-73, Tyr-74, Glu-75, Tyr-83, and Gln-87 in vWbp, thus interfering with the binding of vWbp to prothrombin. Furthermore,
in vivo
studies demonstrated that ABBA can attenuate injury and inflammation of mouse lung tissues caused by
S. aureus
and increase survival of mice. Together these findings indicate that ABBA is a promising lead drug for the treatment of
S. aureus
-related infections. This is the first report of potential inhibitor which inhibit the coagulase activity of vWbp by directly interacting with vWbp.
...
PMID:An Inhibitory Effect of Dryocrassin ABBA on
Staphylococcus aureus
vWbp That Protects Mice From Pneumonia. 3072 9
Von Willebrand
factor (VWF) is a mechano-sensitive protein with crucial functions in normal hemostasis, which are strongly dependant on the shear-stress mediated defolding and multimerization of VWF in the blood stream. Apart from bleeding disorders, higher plasma levels of VWF are often associated with a higher risk of cardiovascular diseases. Herein, the disease symptoms are attributed to the inflammatory response of the activated endothelium and share high similarities to the reaction of the host vasculature to systemic infections caused by pathogenic bacteria such as
Staphylococcus aureus
and
Streptococcus pneumoniae
. The bacteria recruit circulating VWF, and by binding to immobilized VWF on activated endothelial cells in blood flow, they interfere with the physiological functions of VWF, including platelet recruitment and coagulation. Several bacterial VWF binding proteins have been identified and further characterized by biochemical analyses. Moreover, the development of a combination of sophisticated cell culture systems simulating shear stress levels of the blood flow with microscopic visualization also provided valuable insights into the interaction mechanism between bacteria and VWF-strings.
In vivo
studies using mouse models of bacterial infection and zebrafish larvae provided evidence that the interaction between bacteria and VWF promotes bacterial attachment, coagulation, and thrombus formation, and thereby contributes to the pathophysiology of severe infectious diseases such as infective
endocarditis
and bacterial sepsis. This mini-review summarizes the current knowledge of the interaction between bacteria and the mechano-responsive VWF, and corresponding pathophysiological disease symptoms.
...
PMID:Impact of Von Willebrand Factor on Bacterial Pathogenesis. 3301 97
