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

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Query: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is known that the antibiotic ristocetin exposes the platelet membrane receptor for factor VIII/von Willebrand glycoprotein (FVIII/vWF). Recent reports suggest that low concentrations of thrombin also cause platelet membrane receptors to become available for FVIII/vWF. As a consequence, the suspicion has been raised that thrombin provides similar or equivalent activity in vivo to that observed for ristocetin under in vitro conditions. In this study, we quantitated the extent to which thrombin promotes the binding of FVII/vWF to platelets and determined whether or not this interaction initiates or complements platelet aggregation. With ristocetin present, the amount of 125I-FVIII/vWF that became platelet-bound correlated closely with the onset, rate, and extent of platelet aggregation. In contrast, at every thrombin concentration tested, the amount of 125I-FVIII/vWF that specifically bound to platelets was about 6% of that observed with ristocetin. Significantly, FVIII/vWF did not augment the rate of aggregation of platelets in response to thrombin or initiate platelet aggregation when subaggregating doses of thrombin were used. These observations indicate that the minimal association that occurs between FVIII/vWF and the platelet membrane in the presence of thrombin does not correlate with platelet aggregation and therefore is not analogous to the effects of ristocetin. Whether the low level of binding relates to another process, such as platelet-endothelial interactions, remains unknown.
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PMID:Comparison of thrombin and ristocetin in the interaction between von Willebrand factor and platelets. 630 33

Human Factor VIII associated von Willebrand factor (VIII:vWF) binds to human platelets in vitro only in the presence of a mediator such as ristocetin, thrombin or ADP. Studies reported here were designed to determine if human platelets will adhere to solid-phase VIII:vWF. Human VIII:vWF was purified from a phosphate precipitate of A1(OH)3 absorbed plasma using 4% agarose and DEAE cellulose. Purified VIII:vWF (90 units of VIII:vWF activity/mg) was coated on dialysis membranes using ultrafiltration (final concentration of 0.4 units/cm2). Membranes (0.5 cm2) were held stationary in human citrated PRP suspension or washed platelet suspensions and stirred continuously for 5 minutes at 37 degrees C. The membranes were then rinsed in phosphate buffered saline, fixed, stained, and examined by light and scanning electron microscopy. Abundant normal platelets adhered to VIII:vWF-coated membranes, while minimal adhesion was seen on uncoated membranes and membranes coated with albumin. Adhesion occurred without ristocetin, thrombin, ADP or other agonist and in the presence of Ca+2/Mg+2 ions. Preincubation of the VIII:vWF coated membranes with monospecific rabbit anti-VIII:vWF inhibited the adhesion reaction. However, preincubation of VIII:vWF coated membranes with naturally occurring human anti-FVIIIc antibodies failed to interfere with platelet adhesion. Platelets from a patient with Bernard-Soulier Syndrome (BSS) which did not bind human VIII:vWF in the presence of ristocetin or aggregate with bovine cryoprecipitate also did not adhere to VIII:vWF-coated membranes.
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PMID:Adhesion of human platelets to purified solid-phase von Willebrand factor: studies of normal and Bernard-Soulier platelets. 641 73

Activation of washed platelets in the presence of EDTA with either 1 U/ml of alpha-thrombin or 2 microM calcium ionophore (A23187) caused the release of one-third to one-half of the platelet factor VIII/von Willebrand factor (FVIII/vWF) into the supernatant. When calcium was present in excess, only 10% of the platelet FVIII/vWF was detected free in the supernatant, regardless of whether calcium was present before stimulation or added to the platelets after thrombin activation. Release of [14C]serotonin and beta-thromboglobulin were not affected by divalent cations indicating that reduced supernatant levels of FVIII/vWF in the presence of calcium were not due to differential release, but were probably due to a calcium-dependent association of released FVIII/vWF with the platelet surface. The presence or absence of intact glycoprotein Ib on the platelet surface made no significant difference to the observed FVIII/vWF partition. Platelets from a patient with Glanzmann's thrombasthenia, however, failed to show a calcium effect with respect to released FVIII/vWF. The combined results suggest that as well as the ristocetin-dependent, divalent cation-independent binding of FVIII/vWF to glycoprotein Ib, there is a divalent cation-dependent binding of FVIII/vWF to the activated platelet surface which is mediated via the glycoprotein IIb/IIIa complex.
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PMID:Characterization of calcium-dependent binding of endogenous factor VIII/von Willebrand factor to surface activated platelets. 643 80

Ristocetin, protamine and Polybrene promote factor VIII:vWF binding and agglutination of formalinized platelets. It has been suggested that these polycations neutralize platelet negative surface charges and promote the attachment of VIII:vWF to platelets. Platelet factor 4 (PF4), protamine, and Polybrene inhibit heparin activity by neutralizing heparin negative charges. We tested the hypothesis that PF4, which is bound to the platelet surface after platelet activation and secretion, could promote the binding of VIII:vWF and subsequent platelet agglutination. Purified PF4 in concentrations comparable to those of ristocetin did not agglutinate formalinized platelets or induce the disappearance of VIII:vWF from the suspending plasma. Platelets were thrombin-treated in order to induce the release of PF4, and then formalinized and resuspended in normal plasma. These platelets did not agglutinate spontaneously, or at lower ristocetin concentrations than platelets that were not treated with thrombin before formalin fixation. Platelets were also activated by thrombin in the presence of EDTA to prevent surface binding of VIII:vWF or secreted PF4, and then formalinized. These platelets did not bind VIII:vWF in the presence of purified PF4. We conclude that even though PF4 binds to both polyanions and the platelet membrane, it does not promote the attachment of VIII:vWF.
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PMID:Platelet factor 4 does not promote von Willebrand factor binding to human platelets. 644 Mar 7

The relationship between Factor VIII coagulant antigen (VIII:CAg) and Factor VIII-associated von Willebrand factor (VIII:vWF), and the effect of thrombin on VIII:CAg have been determined in plasma by using complexes of VIII:CAg and 125I-labeled human anti-VIII:CAg-Fab. Antibody-treated plasma samples were electrophoresed on NaDodSO4/polyacrylamide agarose gels and analyzed by autoradiography. The major VIII:CAg-125I-labeled Fab complex that persisted in NaDodSO4 had Mr 3.2 x 10(5). This Mr value was confirmed by column chromatography and sucrose density centrifugation and is presumed to reflect a free VIII:CAg of Mr 2.7 x 10(5). Minor bands were also present on autoradiograms of normal plasma corresponding to Mr values of 2.5, 1.85, and 1.7 x 10(5) (free VIII:CAg related proteins with Mr values of 2.0, 1.35, and 1.2 x 10(5), respectively). None of the VIII:CAg bands was present in plasma samples from five patients with severe hemophilia A. No radioactivity was associated with VIII:vWF multimers on NaDodSO4 gels. Thrombin treatment of normal plasma eliminated the radioactive band at 3.2 x 10(5) and increased the intensity of a band of Mr 1.7 x 10(5). Generation of this presumed VIII:CAg fragment of Mr is approximately equal to 1.2 x 10(5) coincided with a thrombin-induced increase in Factor VIII coagulant activity. These data demonstrate that the form of VIII:CAg detected in normal plasma is not covalently linked to VIII:vWF multimers and is absent in plasma from five hemophilia A patients. Thrombin-induced proteolysis of VIII:CAg can be detected in microliter quantities of normal plasma.
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PMID:Analysis of factor VIII coagulant antigen in normal, thrombin-treated, and hemophilic plasma. 679 28

The mode of action of the antiplatelet agent ticlopidine is not yet fully understood. Its multiple effects on platelet function include prolongation of the bleeding time, reduction in primary and secondary waves of ADP-induced aggregation and inhibition of collagen and thrombin-induced aggregation. We have studied the in vitro effects of ticlopidine on fibrinogen binding induced by ADP and adrenaline as well as factor VIII/vWF binding induced by ristocetin. 125I-fibrinogen binding was measured in suspensions of freshly-washed normal platelets stimulated by 10 microM ADP or 10 microM adrenaline. The binding of 125I-factor VIII/vWF in the presence of 1 mg/ml ristocetin was measured in both washed and paraformaldehyde-fixed platelets. Ticlopidine at final concentrations of 200, 100, 50 and 25 microM inhibited both ADP and adrenaline-induced fibrinogen binding in a dose-dependent manner. The mean % inhibition of ADP-induced fibrinogen binding was 82, 73, 42 and 32 respectively. The mean % inhibition of adrenaline-induced fibrinogen binding was 86, 82, 60 and 35 respectively. In contrast, the factor VIII/vWF binding was unaffected by ticlopidine at all concentrations except at 200 microM using fresh platelets where a slight inhibition (19%) was observed. These results suggest that ticlopidine either inhibits platelet activation and consequently fibrinogen binding, or inhibits the binding directly, presumably by having an effect on the specific configuration of the platelet membrane required for normal fibrinogen binding.
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PMID:The in vitro effect of ticlopidine on fibrinogen and factor VIII binding to human platelets. 679 89

Activities of the various components of the human factor VIII complex in citrated and heparinized human plasma have been determined following radiation inactivation of the plasma in a high energy electron beam at -135 degrees C in order to determine the molecular size of the functional units. In citrated and in heparinized plasma the functional size of VIII:C was 120,000 +/- 9,700 and 140,000 +/- 10,000, respectively. Taken together with previously published data, these results suggest that VIII:C exists in plasma as a dimer of noncovalently bonded functional subunits. The size of the functional unit of the ristocetin cofactor of the factor VIII complex was determined as being approximately 330,000 in both citrated and heparinized samples. Immunological assays for VIII:C (inhibitor neutralization assay), the VIII:C antigen, and the VIII:vWF-related antigen suggest that these may not be reliable under conditions favoring the activation and inactivation of factor VIII components by thrombin or other proteases.
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PMID:The functional molecular weights of factor VIII activities in whole plasma as determined by electron irradiation. 681 91

The multimeric structure of platelet factor VIII/von Willebrand factor (FVIII/vWF) in cell extracts and in collagen and thrombin releasates has been analyzed by SDS polyacrylamide gel electrophoresis followed by detection with 125I-anti-FVIII/vWF. Platelets contained larger multimers than those normally present in plasma. When secreted FVIII/vWF was analyzed, all platelets. In contrast, in thrombin releasates the larger multimers were lost in a manner dependent on divalent cations, time, and thrombin dose. This loss could not be accounted for by modification of FVIII/vWF by thrombin or platelet enzymes since no effect of thrombin on the multimeric structure of FVIII/vWF in the absence of platelets or in the presence of platelet lysates was observed. Large multimers of 125I-labeled purified FVIII/vWF underwent divalent cation-dependent association with platelets in the presence of thrombin, indicating that the loss of FVIII/vWF from thrombin releasates was due to reassociation with the platelet. These studies show a structural difference between platelet and plasma FVIII/vWF that suggests a specific role for platelet FVIII/vWF in hemostasis.
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PMID:Multimeric structure of platelet factor VIII/von Willebrand factor: the presence of larger multimers and their reassociation with thrombin-stimulated platelets. 698 84

A fragment (residues His1-Val289) of the alpha chain of human platelet glycoprotein Ib containing the von Willebrand factor and thrombin binding sites has been expressed in Chinese hamster ovary cells. The secreted soluble recombinant protein had an apparent molecular mass of 42 kD and reacted with a conformation-dependent monoclonal antibody that only binds to native GP Ib, thus demonstrating its proper folding. The rather broad band obtained after immobilization of the recombinant fragment on nitrocellulose could be resolved into a very sharp band of molecular weight of about 35 kD by growing the cells in the presence of tunicamycin, an inhibitor of N-linked glycosylation. The recombinant GP Ib alpha fragments (with or without glycosylation) were purified by immunoaffinity chromatography. Both truncated forms bound vWF in the presence of botrocetin with comparable affinity as a proteolytic 42 kD fragment of purified human platelet GP Ib-IX. They were also retained on thrombin-Sepharose. We then selected a cell clone (B1) that produced over at least three months about 1.5 micrograms of recombinant protein per million cells per day. Using this clone a large-scale production finally yielded milligram amounts of the functionally active recombinant human GP Ib alpha fragment.
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PMID:Stable expression in Chinese hamster ovary cells of a homogeneous recombinant active fragment of human platelet glycoprotein Ib alpha. 754 35

The coagulant content and thrombin generating potential of synovial fluid from patients with osteoarthritis were studied as a model of extravascular coagulation. The concentrations of individual coagulant proteins were partially correlated with their molecular weight. The levels of the very large coagulants factor V, factor VIII and von Willebrand factor antigen (vWF:ag) are less than 1% of the activities found in a normal pooled reference plasma while smaller coagulants including factors IX, XI and prothrombin range between 9 and 30%. The protease inhibitors antithrombin-III (AT-III) and Alpha-2 macroglobulin in synovial fluid were present at levels of 74% and 13% of plasma, higher than expected based on their molecular weights. Prothrombin was more rapidly activated by tissue thromboplastin than by aPTT reagent. The thrombin activity formed in synovial fluid decreased more rapidly than that formed in dilute plasma. The addition of recombinant factor VIII or bovine factor V to synovial fluid accelerated the thrombin production by APTT but not by tissue thromboplastin. Indicating that the low levels of factor VIII and factor V did limit the rate of thrombin production. The addition of specific antibodies to factor VIII or factor V strongly inhibited thrombin production by aPTT. These data confirm a roughly inverse relationship between the concentrations of coagulation proteins and their molecular weight in synovial fluid and indicate that thrombin can be generated in synovial fluid. The inactivation of thrombin in synovial fluid may be more dependent on antithrombin-III than in plasma because of the increased AT-III/alpha-2 macroglobulin ratio seen in synovial fluid.
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PMID:Coagulant proteins and thrombin generation in synovial fluid: a model for extravascular coagulation. 757 4


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