EC:3.4.21.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.6 (thromboplastin)
13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The macromolecular breakdown products of fibrinogen are known mainly for their inhibitory effect on the clotting of fibrinogen by thrombin. This inhibitory effect is due to interference with both the proteolytic action of thrombin and the polymerization of the fibrin monomers. However, the action of these products is not limited to these effects. They can on the one hand inhibit the consumption of Factors II and XIII and promote the inactivation of Factor VIII by thrombin. On the other hand, they can potentiate the activation of prothrombin in purified systems via the intrinsic pathway. The incidental observation was also made that Factor IXa and or Factor Xa inactivate Factor VIII. As substrates of both thrombin and plasmin the large fragments protect these two enzymes from spontaneous inactivation, while at the same time they inhibit their respective proteolytic activities. Contradictory results were obtained regarding their effect on platelets. The micromolecular (dialyzable) breakdown products prolong the thrombin, prothrombin, and partial thromboplastin times of plasma and retard the generation of the intrinsic prothrombin activator. They can also potentiate the effects of biologically active peptides and amines on the smooth muscles and on vascular permeability.
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PMID:Physiological effects of the plasminolytic derivatives of fibrinogen. 0 46

alpha(2)-Plasmin inhibitor (alpha(2)PI) is a recently characterized, fast-reacting plasmin inhibitor in human plasma that appears to play an important role in regulation of in vivo fibrinolysis. We report here a case of complete deficiency of alpha(2)PI in man. The patient, a 25-yr-old Japanese man, had a life-long severe bleeding tendency (hemarthrosis and excessive bleeding after trauma). The following tests were within normal limits: platelet count, bleeding time, thrombin time, prothrombin time, partial thromboplastin time, titers of known clotting factors, platelet glass bead retention, Factor VIII-related antigen, platelet aggregation by ADP, collagen and ristocetin, and clot retraction. Routine liver function tests were also normal. The only abnormal finding was that whole blood clot lysis was extemely rapid and was complete in 4-8 h. The concentration of plasma protease inhibitors, including alpha(2)-macro-globulin, antithrombin III, alpha(1)-antitrypsin, and C1INH, were all normal. The concentration of alpha(2)-PI in the patient's plasma, assayed by immunological methods, was <0.1 mg/100 ml (normal concentration, 6.1+/-0.88 mg/100 ml [mean+/-SE]) and functional assays showed a complete deficiency of alpha(2)PI. Addition of purified alpha(2)PI to the patient's whole blood completely corrected the accelerated fibrinolysis. The patient's parents, four siblings, and four other members of this family were asymptomatic, but the titers of alpha(2)PI in their plasmas were congruent with50% of normal pooled plasma. There were three consanguineous marriages in this family, and the alpha(2)PI deficiency appears to have been inherited as an autosomal recessive trait. We speculate that alpha(2)PI deficiency in this patient has led to uninhibited in vivo fibrinolysis that probably causes the severe hemorrhagic tendency. Thus, this study indicates the important role of alpha(2)PI in hemostasis.
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PMID:Congenital deficiency of alpha 2-plasmin inhibitor associated with severe hemorrhagic tendency. 15 96

Recurrent retinal branch artery occlusions, carotid thromboembolism, cerebral venous thrombosis, transient brainstem ischemia, and massive brainstem and cerebral infarction complicated the course of inflammatory bowel disease in 5 patients. Three patients had ulcerative colitis and 2 had regional enteritis. The usual risk factors for stroke were absent. Neuropathological examination in 1 patient showed in situ thrombosis of small cerebral and brainstem arteries and veins. Coagulation studies showed thrombocytosis, short partial thromboplastin times, and elevation of fibrinogen and Factor VIII levels. Platelet counts and coagulation factors returned toward normal after control of intestinal inflammation in each of the 4 surviving patients. Inflammatory bowel disease can be accompanied by a hypercoagulable state that predisposes to stroke.
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PMID:Cerebral and retinal vascular complications of inflammatory bowel disease. 44 68

Fourteen patients with a documented sudden neurosensory hearing loss and four patients with other diseases causing neurosensory hearing loss were studied. The standardized coagulation workup included hematocrit, activated partial thromboplastin generation time, thrombin generation, prothrombin time, phase platelet count, platelet adhesivity, protamine sulfate, serum antithrombin III activity, fibrinogen, and Factor VIII values. Ony those patients having documented evidence of a neurosensory hearing loss occurring within hours or days were included in this study. Eight of the 14 paitents with a documented sudden neurosensory hearing loss satisfied our laboratory criteria for a diagnosis of in vitro hypercoagulability. Three of these patients had abnormal thrombin generation values, 4 had abnormal serum antithrombin III values, and 1 had an elevated platelet count. Four other patients with other diseases causing neurosensory hearing loss did not show evidence of in vitro hypercoagulability. It would appear from this data that coagulation abnormalities play a role in the pathogenesis of sudden neurosensory hearing loss.
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PMID:Hypercoagulability as a cause of sudden neurosensory hearing loss. 50

A case of apparent association of dextran 70 therapy with reduced factor VIII activity in a 24-year-old white woman with thrombotic thrombocytopenic purpura (TTP) is reported. Diagnosis of TTP was based on clinical and laboratory data consistent with transient neurological deficits, thrombocytopenia and hemolytic anemia. Intravenous dextran 70 (250 ml every 12 hours) and oral prednisone (80 mg daily) were given for TTP. Additional oral medications included codeine, Maalox and Tabron. When assay showed a factor VIII activity of 14% on the third day of dextran 70 administration, the drug was discontinued and oral administration of dipyridamole (100 mg four times daily) was begun. Factor VIII activity increased to 82% on day six. Dextran 70 (125 ml every 12 hours) was resumed on day seven following a splenectomy on the previous day. When factor VIII activity subsequently decreased from 75% to 29% within two days, dextran 70 was again discontinued and dipyridamole reinstituted at its earlier dosage. The patient's discharge medications included dipyridamole and 60 mg of prednisone daily (to be tapered). Reports of dextran 70-induced hemostatic defects involving platelets and factor VIII are reviewed. Dextran will form, with factors I and VIII, cryoprecipitates that may reduce the activity of factor VIII. It is suggested that patients receiving dextrans be monitored with partial thromboplastin times and, if available, with assays of factor VIII activity.
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PMID:Effects of dextran 70 on factor VIII activity. 56 41

We studied the activation of factor X by the intrinsic pathway of blood coagulation using a new assay of factor X activation. When factor X tritiated in its sialic acid residues is activated, activation can be measured by the release of tritiated activation peptide, and the initial rate of activation can be determined under varying conditions. In the presence of phospholipid and calcium ions, factor IXa activated factor X slowly without factor VIII, and this activation was blocked by a specific factor IX inhibitor. These data provide strong evidence that factor IXa is the enzyme responsible for factor X activation by the intrinsic pathway. The role of factor VIII was also investigated. Factor VIII could be reproducibly thrombin activated and then stabilized by the addition of 2 mM benzamidine hydrochloride; this suggests that inactivation is due to proteolysis. Neither unactivated nor thrombin-activated factor VIII produced factor X activation without factor IXa. With a constant level of factor IXa, factor X activation was directly proportional to the level of activated factor VIII. With a constant level of activated factor VIII, factor X activation was proportional to the factor IXa concentration. This observation was exploited to develop a specific, sensitive assay for factor IXa.
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PMID:Activation of factor X by factors IXa and VIII; a specific assay for factor IXa in the presence of thrombin-activated factor VIII. 69 98

Improved methods are described to obtain bovine prothrombin, Factor IX, Protein C, and autoprothrombin III (Factor X, Auto-III) in purified form. The prothrombin had a specific activity of 4,340 Iowa units/mg. Theoretically, a preparation of clean thrombin should have a specific activity of 8,200 U/mg, because 47.08% of the protein in prothrombin is lost when thrombin forms. Such thrombin preparations have been obtained (Arch. Biochem. Biophys. 121, 372 (1967)). The prothrombin concentration of bovine plasma is near 60 mg/liter. Protein C, first isolated by Stenflo (J. Biol. Chem. 251, 355 (1976)), was found to be the precursor of autoprothrombin II-A (Auto-II-A), discovered earlier (Thromb. Diath. Haemorrh. 5, 218 (1960)). Protein C (Factor XIV) was converted to Auto-II-A (Factor XIVa) by thrombin. Digesting purified Auto-III with purified thrombin removed a small glycopeptide from the COOH-terminal end of the heavy chain to yield Auto-IIIm. Auto-III thrombin leads to Auto-IIIm + peptide. Auto-IIIm was not converted to the active enzyme with thromboplastin, and furthermore, inhibited the activation of purified native Auto-III with thromboplastin. Auto-IIIm was also not converted to the active enzymes when the procoagulants consisted of purified Factor VIII, purified Factor IXa, platelet factor 3 and calcium ions. The "activation peptide" released by RVV-X from the NH2-terminal end of the heavy chain and the active enzyme (Auto-Cm) were purified. Auto-III was also activated with purified RVV-X. The same "actid of Auto-Cm. Purified Factor IX developed anticoagulant activity when reacted with an optimum concentration of purified thrombin. A suitable reagent for the assay of Factor IX was prepared by removing prothrombin complex from anticoagulated bovine plasma and restoring the prothrombin and Auto-III concentration with use of the respective purified proenzymes.
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PMID:Improved procedures for the purification of selected vitamin K-dependent proteins. 78 72

Variations of the partial thromboplastin time (PTT) were tested to determine the best screening method for detection of inhibitors of factor VIII. Variables tested included the duration of preincubation of a mixture of patient plasma and factor VIII source (normal plasma), the ratio of the patient plasma to the normal plasma, and the duration of incubation of the normal plasma-patient plasma mixture with kaolin-cephalin suspension prior to recalcification. The following conclusions were reached: (1) The PTT performed on a mixture of equal amounts of patient and normal plasma without preincubation of the mixture was inadequate to detect many factor VIII inhibitors. (2) Factor VIII inhibitors of more than 0.5 Bethesda units could be detected if the PTT was performed on a mixture of four parts patient plasma and one part normal plasma, with preincubation of the mixture for 60 min at 37 degrees C. (3) Factor VIII inhibitors as weak as 0.1 Bethesda units could be detected if the PTT was performed on a mixture of four parts patient plasma and one part normal plasma incubated with kaolin-cephalin suspension for 120 min at 37 degrees C before recalcification. The last method may make detection of mild factor VIII inhibitors possible in routine clinical laboratories not equipped to perform the more technically difficult Bethesda inhibitor assays.
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PMID:Detection of factor VIII inhibitors with the partial thromboplastin time. 85 60

Factor VIII is present in plasma in a precursor or inactive form. When bovine factor VIII that has been purified approximately 10,000-fold is incubated with thrombin, an activated product is formed which participates in the conversion of factor X to factor Xa in the presence of factor IXa, calcium ions, and phospholipid. This activated product, which has been tentatively identified as activated factor XIII, was stable when formed in the presence of 0.25M CaCl2 but was rapidly inactivated in the absence of CaCl2. It was inhibited by diisopropyl phosphorofluoridate and antithrombin III, suggesting that it is a serine enzyme. The exact role of this serine enzyme in the intrinsic pathway of coagulation remains to be established.
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PMID:Formation of a serine enzyme in the presence of bovine factor VIII (antihemophilic factor) and thrombin. 87 60

Possible increased activation of the coagulation pathway was measured in a group of patients with neoplastic diseases. In addition to standard tests, the thromboplastin generation test, thrombin generation test and immunologic and coagulant activities of both Factor VIII and antithrombin III were utilized in the evaluation. The correlation between immuno-Factor VIII (VIII-Ag) and its clotting activity (VIII-C1) was good (r = 0.83). In contrast, this was not the situation for antithrombin III-Ag and its clotting activity. Thromboplastin generation was accelerated in 60% and thrombin generation was accelerated in 40% of the patients. Fibrinogen was elevated in half the cases: in most of these patients, thrombin times were slightly prolonged. These results indicate that some patients who have cancer have abnormal clotting patterns and are often in a potentially hypercoagulable state that is reflected by the thromboplastin generation test, thrombin generation test, and high levels of Factor VIII (both VIII-Ag and VIII-C1).
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PMID:Antithrombin III and Factor VIII in patients with neoplasms. 87

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