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 activation of human blood coagulation factor VII can occur by the feedback activity of either factor VIIa (autoactivation) or factor Xa. Both of these reactions are known to be enhanced by the presence of tissue factor, an integral membrane protein and the cofactor for factor VIIa. We examine here the activation of 125I-factor VII by both factor VIIa and factor Xa employing a mutant soluble form of tissue factor which has had its transmembrane and cytoplasmic domains deleted (sTF1-219). This mutant soluble tissue factor retains cofactor activity toward factor VIIa in a single-stage clotting assay but shows a strong dependence on initial plasma levels of factor VIIa (from 1 to 10,000 ng/ml) when compared to wild-type tissue factor. We show that this dependence is due to a deficiency of sTF1-219 in ability to both promote autoactivation and enhance the factor Xa-catalyzed activation of 125I-factor VII. sTF1-219 does not, however, inhibit the tissue factor-independent activation of 125I-factor VII by factor Xa. The results strongly suggest that the phospholipid anchoring region of tissue factor is essential for autoactivation and beneficial for factor Xa-catalyzed activation of 125I-factor VII. In addition, when taken together with the dependence of clotting times on initial factor VIIa levels observed with sTF1-219, these results indicate that factor VII autoactivation may be of greater importance in the initiation of blood coagulation via tissue factor than has been previously realized.
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PMID:Deletion of the membrane anchoring region of tissue factor abolishes autoactivation of factor VII but not cofactor function. Analysis of a mutant with a selective deficiency in activity. 162 32

The effect of burn wound size on the activation of fibrinolysis, coagulation, and contact factors was analyzed in 60 thermal injury patients. Blood samples from 47 male patients and 13 female patients, (average age 37 years; range 1.5-70 years) were collected within the first 36 hours and at 5-7 days following injury. The patient population was categorized by percentage of burn (second degree and/or third degree): less than 20%, n = 22; 20%-40%, n = 18; greater than 40%, n = 20. The average percentage of burn was 32% (range, 4%-95%). The mechanism of injury was by flame (25), explosion and flame (19), scald (12), electric (3), or chemicals (1). An associated inhalation injury was present in 12 patients. The overall mortality rate was 13% (8). Sepsis or serious infection occurred in 23% (14) of the patients. On admission, 83% of the patients had normal prothrombin times (PT) and activated partial thromboplastin times (APTT). However, specific hemostatic variables showed marked changes. Admission hemostatic markers that correlated with the severity of injury were: tissue-plasminogen activator (tPA), plasminogen activator inhibitor (PAI), D-dimer (D-di), plasminogen (Plg), proteins C and S (PrC and PrS), antithrombin III (ATIII), thrombin-antithrombin complex (TAT), kallikrein (Kal:c), kinin (Kin), C1 esterase inhibitor (C1Inh), and factor VII clotting and antigen (FVII:c, FVII:ag). These data suggest that during the early course following burn injury, thrombogenicity is increased (TAT increases) because of a decrease in ATIII, PrC, and PrS; and fibrinolysis activation (D-di increases) occurs via an increase in tPA with a p value increase in PAI.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of burn wound size on hemostasis: a correlation of the hemostatic changes to the clinical state. 163 6

We noted that patients treated with high-dose interleukin (IL)-2 (600,000 IU/kg every 8 h by intravenous bolus) at our institution frequently developed prolongation of their prothrombin time (PT). We therefore performed a prospective study of coagulation function during IL-2 treatment. Since IL-2 treated individuals are known to develop cholestatic liver dysfunction, we hypothesized that the hypoprothrombinemia was due to deficiency of liver-synthesized clotting factors and could be prevented by vitamin K replacement. Alternating patients served as controls or received prophylactic subcutaneous subcutaneous vitamin K. While the nine control patients did not exhibit a significant increase (mean +/- SD) in PT (13.6 +/- 0.6 s pretreatment, 15.0 +/- 2.2 on day 4, and 15.0 +/- 2.5 on day 7, p = 0.77 by repeated measures analysis), three patients developed marked increases in PT (greater than 18 s). Changes in partial thromboplastin time (PTT) over this interval were also not statistically significant. Factor VII levels decreased in all patients from 106 +/- 22 to 59 +/- 16 and 52 +/- 26% on days 4 and 7 (p = 0.0002). Factor VII levels in four patients dropped below the lower limit of normal. Prophylactic treatment of seven patients with vitamin K on days 1-8 of the IL-2 therapy protocol resulted in diminished changes in PT and factor VII compared to control patients (p = 0.02 and 0.003 respectively). No vitamin K-treated patient developed PT or Factor VII levels significantly outside the normal range. Prophylactic vitamin K can prevent hypoprothrombinemia in patients treated with IL-2. This may be of importance in patients with decreased hepatic vitamin K stores, who may be at risk for bleeding complications.
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PMID:Hypoprothrombinemia associated with interleukin-2 therapy: correction with vitamin K. 173 51

In previous kinetic studies, the catalytic efficiency of the activation of human coagulation factors IX and X by factor VIIa in the presence of purified tissue factor apoprotein was found to be essentially equal. These activation reactions were now studied on the surface of human umbilical vein endothelial cells. The cells were stimulated with endotoxin to express tissue factor. This tissue factor activity was saturable with factor VIIa and could be inhibited by rabbit antibodies against human tissue factor apoprotein. Only stimulated cells supported factor VIIa activity. No difference in the reactivity of factor VII and VIIa was observed in the presence of factor X, due to rapid feedback activation of factor VII by factor Xa. However, the activation of factor IX by factor VII shows a 10 min lag-phase, which reflects that the activation of factor VII by factor IXa is a less efficient process. The kinetic parameters for the factor VIIa dependent activation of factor IX and factor X on the endothelial surface were: Km 0.09 microM, Vmax 0.13 pmol/min, and Km 0.071 microM, Vmax 0.41 pmol/min, respectively. The same ratio between the Vmax for factor X and factor IX activation was observed as in a cell free system. However, the Km of factor IX was 4-fold higher on the endothelial surface than in the cell free system. Together, these kinetic parameters will favour factor X activation 5-fold over factor IX activation at physiological concentrations of these proteins. The activation of factor X by factor VIIa on the endothelial surface was characterized by a short lag-phase, which was absent in factor IX activation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Extrinsic activation of human coagulation factors IX and X on the endothelial surface. 174 98

Purer factor IX concentrates, containing very little or no factor II or X, have been developed in an attempt to avoid the thromboembolic complications that occur with prothrombin complex concentrates (PCC), which also contain factors II and X and variable amounts of factor VII. To evaluate ex vivo the thrombogenic potential of one of these purer concentrates, we studied whether large single doses produced signs of activation of the coagulation cascade in patients with haemophilia B, and compared the results with those obtained after infusion of a PCC. Seven patients were infused with 50 IU/kg of factor IX concentrate and seven additional patients were subsequently infused with 100 IU/kg of the same concentrate. After the infusions, factor IX levels rose in proportion to the administered dose while the concentrations of factor II and factor X did not rise at all. At both doses of concentrate, we did not observe significant post-infusion increments in the levels of the factor X activation peptide (a measure of the activity of the factor VIIa-tissue factor complex and/or the factor IXa-VIIIa-activated surface complex), prothrombin fragment 1 + 2 (a measure of factor Xa activity), and fibrinopeptide A (a measure of thrombin activity). We also infused 10 patients with a PCC (50 IU/kg). After the infusions, significant rises in the concentrations of the factor X activation peptide and prothrombin fragment were observed. Therefore, it appears that the infusion of a PCC to patients with haemophilia B can augment factor X activation and subsequently thrombin generation in vivo and that this process can be abrogated by the administration of more pure factor IX concentrate.
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PMID:No activation of the common pathway of the coagulation cascade after a highly purified factor IX concentrate. 177 82

A comparative study of the effects of combined oral contraceptives (OC) on coagulation and fibrinolytic variables using standardized laboratory technique and methodology has been performed in Dublin (Ireland), Salvador (Brazil), Santiago (Chile) and Singapore. Of 777 entrants to the study, 622 were randomly allocated to receive one of four different OC formulations. The remainder did not opt for OC. The progestogenic component was levonorgestrel (LNG) in three of the OC formulations and norethisterone acetate (NEA) in the fourth. Results for the three LNG user groups were pooled. The changes in haematological variables observed over 12 months in the LNG and NEA users were examined in relation to the changes seen in the women not on OC. Women in Salvador differed markedly from those in the other three centres, in showing no acceleration of the prothrombin time and no increase in either fibrin plate lysis or plasminogen following the use of OC. After adjusting the findings in OC users for those in non-users, significant differences in response between centres were also detected for activated partial thromboplastin time (accelerated only in Dublin and Santiago), factor VII activity (increased mainly in Salvador and Santiago) and fibrinogen (for which the most marked changes were an increase in Dublin and a decrease in Salvador). This variability between centres in the effects of OC on coagulation and fibrinolysis suggests that OC administration in different populations may not carry equal thrombotic risks.
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PMID:A multicentre study of coagulation and haemostatic variables during oral contraception: variations with geographical location and ethnicity. Task Force on Oral Contraceptives--WHO Special Programme of Research, Development and Research Training in Human Reproduction. 180 Apr 30

Activation of the extrinsic plasmatic clotting system was simulated in a computerized analysis. The results were compared with previously described experimental investigations in plasma with isolated clotting factor deficiency, which led to the conclusion that the sequence of patterns for constants of a function describing the extinction curves is related to the sequence of steps of clotting factor activation. The kinetics of activation resulting in extinction curves that correspond to the curves obtained from experimental measurements are described by sets of stiff coupled linear differential equations. The set of functions can be numerically solved without further approximations. As for experimental extinction curves the simulated extinction curves are characterized by an empirical function with three constants. The distribution patterns for the constants are qualitatively similar to experimental patterns, if the following assumptions are made: (1) feedback reaction occurs from factor IIa via factor V, and (2) the conversion of factor II by factor Xa occurs at a rate considerably slower than the conversion of factor II by the prothrombinase complex. A feedback reaction by factor Xa via factor VII accelerates the formation of factor X, although the distribution pattern remains similar to the distribution pattern for a mechanism without the feedback reaction, provided that the initial activation of factor X occurs at a fast rate. A feedback reaction by factor Xa via factor V in addition to the feedback reaction by factor IIa via factor V accelerates the activation, while the pattern distribution remains unchanged. The simultaneous inhibition of factor Xa and factor IIa by antithrombin III does not change the pattern distribution, while the formation of activated factor II is decelerated.
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PMID:Simulation of the extrinsic pathway of the plasmatic clotting system. 182 78

To elucidate the etiology of the thrombogenic effects of high-dose medroxyprogesterone acetate (MPA) in the treatment of breast cancer, hematologic parameters were sequentially assessed in 12 patients receiving MPA 800 mg p.o. daily for 6 months as adjuvant hormone therapy after mastectomy. The results were as follows. (1) Coagulation system: levels of factor VII and fibrinogen decreased significantly, whereas factors II and IX increased significantly, with a shortened activated partial thromboplastin time. (2) Fibrinolytic system: plasminogen and alpha 2-plasmin inhibitor-plasmin complex increased, whereas fibrinogen degradation products remained low. (3) Anticoagulation system: antithrombin III increased significantly. (4) These changes were most marked after 2 or 4 weeks of MPA treatment, and returned to the pretreatment level one month after discontinuation of treatment. (5) No patients in this study developed thromboembolic disease during or after MPA administration. These results indicate that MPA may induce a hypercoagulable state, but this state does not directly lead to the development of thrombosis.
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PMID:Changes in hematologic parameters during treatment with medroxyprogesterone acetate for breast cancer. 182 63

Activation of coagulation factor X via the intrinsic pathway requires the assembly of factors IXa and VIII on lipid membranes. It is known that the platelet expresses membrane sites for assembly of factors IXa/VIII and promotes efficient factor X activation. We now show that human blood monocytes, but not lymphocytes or polymorphonuclear leukocytes, also express appropriate sites for factors IXa/VIII assembly. The maximal rate of factor X activation by factors IXa (0.75 nM) and VIII (1 unit/ml) assembled on monocytes is similar to the maximal rate on platelets. This rate, adjusted per micromole of lipid phosphorus, is 1636 +/- 358 nM factor Xa/min on monocyte, and 1569 +/- 54 nM factor Xa/min on platelets. At physiologic concentrations of factors X and VIII, the activation rate increases with factor IXa concentration asymptotically approaching a maximum. Half-maximal rate is achieved with 1.0 +/- 0.16 nM factor IXa. Monocytes and macrophages, but not platelets, can express membrane tissue factor and thus promote simultaneous assembly of two distinct factor X-activating protease complexes. In these studies, blood monocytes and alveolar macrophages are used as membrane sources in kinetic experiments comparing factor X activation by intrinsic (factor IXa/VIII) versus extrinsic (factor VII/tissue factor) protease complexes. At plasma concentration of factors VIII and VII, apparent Km on the monocyte is 14.6 +/- 1.4 nM for intrinsic and 117.0 +/- 10.1 nM for extrinsic activation. The apparent Km on alveolar macrophages is 12.1 +/- 1.9 and 90.6 +/- 10.2 nM for intrinsic and extrinsic activation, respectively. Maximal rates on monocytes at saturating concentration of factors IXa, VIII, and VII are 48.0 +/- 11.2 nM factor Xa/min, for intrinsic activation, and 16.5 +/- 5.5 nM factor Xa/min, for extrinsic activation. These data show that the monocyte/macrophage is the only blood-derived cell type with membrane sites for both intrinsic and extrinsic pathway assembly. We have exploited this characteristic of the monocyte/macrophage membrane to demonstrate that factor X activation by the intrinsic pathway protease is more efficient than activation via the extrinsic pathway protease complex.
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PMID:Functional difference between intrinsic and extrinsic coagulation pathways. Kinetics of factor X activation on human monocytes and alveolar macrophages. 190 70

Whole blood re-calcification times were evaluated as a measure of endotoxin-associated coagulopathy in horses. First, the effects of endotoxin concentration and duration of in vitro incubation of citrated whole blood with endotoxin on the whole blood re-calcification time of blood collected from healthy horses were determined. Increasing concentrations or incubation times of endotoxin accelerated the whole blood re-calcification time. This effect was attributed mainly to increased monocyte thromboplastin activity. Second, whole blood re-calcification time, a clotting profile, plasma factor VII activity and plasma endotoxin concentration on blood samples obtained from 35 equine colic patients and 10 healthy horses were determined. Compared with healthy horses, colic patients had a longer mean whole blood re-calcification and prothrombin time, lower per cent factor VII activity and higher mean fibrin degradation products concentration. Within the colic patient group, horses that did not survive had detectable endotoxin in plasma, longer whole blood re-calcification and prothrombin times, and lower plasma factor VII activity, compared with colic patients that survived. These data indicate that colic patients with endotoxaemia experience hypercoagulable states, followed by consumptive coagulopathy. Although the cause of endotoxin-associated coagulopathy is likely multi-factorial, increased expression of monocyte thromboplastin activity may be involved in the pathogenesis of coagulopathy. The whole blood recalcification time is a simple, fast and inexpensive way to detect coagulopathy during endotoxaemia and determine the prognosis for survival.
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PMID:Whole blood re-calcification time in equine colic. 191 33


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