EC:3.4.21.5 - FACTA Search

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)

Factor IX plays a central role in blood coagulation, since it can be activated by either XIa (intrinsic pathway) or tissue factor-VIIa (extrinsic pathway). Activated factor IX (IXa), in a surface-bound complex with factor VIIIa, then activates factor X. Platelets provide the catalytic surface upon which this Xase complex is assembled in vivo. We have used flow cytometry to examine binding of factor IXa to thrombin-activated platelets in the absence of added VIIIa. Platelet-bound IXa and platelet protein GPIb were detected by indirect immunofluorescence staining followed by two-color flow cytometric analysis. Microparticles were identified by their light scattering characteristics. Two binding sites for factor IXa were detected. The high affinity binding site saturated at about 10 nM, with a Kd of 1.6 nM. A second binding curve, with a Kd of about 100 nM, was observed at higher concentrations of IXa. The high affinity factor IXa binding sites comprise about 7% of the total factor IXa binding. Binding to both sites was dependent on the presence of calcium. Thus, we conclude that factor IXa, in addition to its high affinity binding, has a calcium-dependent low affinity association with activated platelets and microparticles. Sims et al, have shown that binding sites for a different coagulation factor, factor Va, are concentrated on microparticles relative to platelet membrane proteins, such as GPIb. GPIb is distributed on platelets and microparticle in proportion to plasma membrane surface.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coagulation factor IXa binding to activated platelets and platelet-derived microparticles: a flow cytometric study. 151 77

The prothrombinase complex, which catalyzes the conversion of prothrombin to thrombin, consists of activated Factor X, Factor Va, a membrane surface and Ca2+. To examine the structures that support Factor Va binding to Factor X, we used in vitro mutagenesis to construct a chimeric molecule that includes regions of Factor IX and Factor X. This chimera (IXGla,E1XE2,SP) was prepared from cDNA encoding the second epidermal growth factor (EGF) and serine protease domains of Factor X linked downstream from the cDNA encoding the signal peptide, propeptide, Gla domain, and first EGF domain of Factor IX. The cDNAs encoding the Factor IX/X chimera and wild-type Factor X were each expressed in Chinese hamster ovary cells and the secreted proteins purified by affinity chromatography using polyclonal anti-Factor X antibodies. The chimera migrated as a single major band corresponding to a molecular weight of 68,000. By Western blotting, the chimeric protein stained with both polyclonal anti-Factor X and anti-Factor IX antibodies. gamma-Carboxyglutamic acid analysis demonstrated near complete carboxylation of both the wild-type Factor X and the Factor IX/X chimera. Compared with Factor X, the rate of zymogen activation of the Factor IX/X chimera was about 50% that of Factor X when activated by Factor IXa, Factor VIIIa, phospholipid, and Ca2+. The enzyme form of the Factor IX/X chimera, activated Factor IX/X, generated using the coagulant protein of Russell's viper venom, expressed full amidolytic activity compared with Factor Xa. The activated Factor IX/X chimera had about 14% of the activity of Factor Xa when employed in a prothrombinase assay; this activity reached 100% with increasing concentrations of Factor Va. A binding assay was employed to test the ability of the active site-inactivated Factor IX/Xa chimera to inhibit the binding of Factor Xa to the Factor Va-phospholipid complex, thus inhibiting the activation of prothrombin to thrombin. In this assay the active site-inactivated form of the chimera competed with Factor Xa completely but with decreased affinity for the Factor Va-phospholipid complex. These data indicate that the second EGF domain and the serine protease domain of Factor Xa are sufficient to interact with Factor Va. The Factor IX/X chimera is a good substrate for the tenase complex; the defective enzymatic activity of the activated Factor IX/X chimera can be accounted for by its decreased affinity for Factor Va relative to Factor Xa.
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PMID:Construction, expression, and characterization of a chimera of factor IX and factor X. The role of the second epidermal growth factor domain and serine protease domain in factor Va binding. 163 19

Studies of the clotting mechanisms in the plasma of a Burmese python (Python molurus bivittatus) confirm earlier information that both extrinsic and intrinsic pathways of thrombin formation participate in reptilian hemostasis. Plasma fibrinogen was present at a concentration comparable to that in human plasma. Other assays were hampered by the need to use nonreptilian reagents. The activated partial thromboplastin time was shorter than was that of human plasma, thus implying the presence of prothrombin in python plasma; however, this protein could be demonstrated only in trace amounts. Similarly, only small amounts of Hageman factor (factor XII) and antihemophilic factor (factor VIII) were detected, and none of plasma prekallikrein, high-molecular-weight kininogen, and Christmas factor (factor IX). The prothrombin time was slower than that of human plasma. Factor VII was not detected, but both proaccelerin (factor V) and Stuart factor (factor X) were present. Python plasma inhibited bovine thrombin and human plasmin, but it was deficient in fibrinolytic capacity.
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PMID:Notes on clotting in a Burmese python (Python molurus bivittatus). 234 66

Through immunohistochemical techniques, blood coagulation factors were identified in situ in fresh frozen sections of small cell carcinoma of the lung. Prothrombin/thrombin, factor VII, factor X, and antithrombin III were present in intercellular spaces and associated with tumor cells. Factor IX, factor XI, prekallikrein, and high molecular weight kininogen were identified as being associated with tumor cells but did not exist in intercellular spaces. Variable connective tissue staining but no tumor-related staining was observed for factor V, factor VIII-related antigen, factor XII, the B subunit of factor XIII, alpha 1-antitrypsin, alpha 2-macroglobulin, or alpha 2-antiplasmin. Neither consecutive tissue nor the tumor manifested platelet Ib and IIbIIIa surface glycoproteins. These divergent staining patterns suggested that the detected clotting factors had not merely diffused from permeabilized blood vessels, but were selectively localized in situ. While conditions may exist within tumor tissue that both retard and promote thrombin generation, we propose that interactions between the observed coagulation factors ultimately lead to local thrombin formation, which is responsible for the conspicuous fibrin deposits already described in small cell carcinoma of the lung. Thrombin formed locally might contribute to progression of this tumor. Inhibition of local thrombin formation by warfarin therapy could explain the beneficial effects of warfarin therapy in treating small cell carcinoma of the lung.
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PMID:Occurrence of blood coagulation factors in situ in small cell carcinoma of the lung. 282 13

Involvement of platelet membrane glycoproteins (GP) in interactions between platelets and tumor cells was studied by using two human tumor cell lines and two monoclonal antibodies against platelet membrane GP. HMV-I cells derived from vaginal melanoma induced platelet aggregation in heparinized plasma, which was not followed by coagulation. M7609 cells derived from colon adenocarcinoma also induced platelet aggregation in heparinized plasma, which, on the contrary, was followed by coagulation. Aggregating activities of the HMV-I cells were abolished by pretreatment with neuraminidase or trypsin, but M7609 activity was not labile to these enzymes. Aggregations induced by M7609 were inhibited by hirudin or MD805, while those by HMV-I were not. M7609 cells dose dependently shortened the recalcification time of normal as well as Factor IX-deficient plasmas, while they were not effective in shortening the time of Factor II- or Factor VII-deficient plasmas. The procoagulant activity of HMV-I cells was 1000 times less than M7609 on the basis of cell numbers. When human platelets were preincubated with monoclonal anti-GPIb or anti-GPIIb/IIIa complex antibodies, neither cell line could cause aggregations. These findings suggest that both GPIb and the GPIIb/IIIa complex on the platelet surface are involved in the thrombin-dependent and -independent platelet aggregations induced by tumor cells.
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PMID:Involvement of platelet membrane glycoprotein Ib and glycoprotein IIb/IIIa complex in thrombin-dependent and -independent platelet aggregations induced by tumor cells. 291 Apr 73

Blood coagulation studies carried out on 78 patients up to 30 h after they were bitten by Bothrops jararaca snakes demonstrated clotting defects in 37 patients which included afibrinogenemia, reduced levels of prothrombin, of factors V and VIII, thrombocytopenia and activation of the fibrinolytic system. Factor IX and X levels were within normal range for all patients. These in vitro data suggest that the disseminated intravascular clotting observed in vivo following envenomation may be triggered by the intravascular release of patient thrombin by snake venom enzymes.
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PMID:Alterations of the blood coagulation system after accidental human inoculation by Bothrops jararaca venom. 310 94

In the present study, human factor X and factor IX were each digested with chymotrypsin, and the Gla-peptide from each protein was purified by QAE-Sephadex chromatography. The effect of each Gla-peptide on the activation of human prothrombin by a complex of factor Xa, phospholipid, and calcium was studied using an amidolytic assay for generated thrombin. Prothrombin activation was half-maximally inhibited by factor X Gla-peptide at a concentration of 0.7 microM. Factor IX Gla-peptide was markedly less inhibitory and inhibited this reaction half-maximally at a concentration of 3.7 microM. Kinetic analyses revealed that the factor X Gla-peptide inhibited this reaction in an apparent competitive manner, whereas the factor IX Gla-peptide yielded an exponential Dixon plot. Heat decarboxylation experiments revealed that 3-4 gamma-carboxyglutamic acid residues are critical for the expression of inhibitory activity in each peptide. These studies indicate that, in spite of their structural homology, the ability of each of these Gla-peptides to act as a prothrombinase inhibitor is markedly different.
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PMID:Inhibition of prothrombin activation by factor X and factor IX Gla-peptides. 337 73

We report here the effect of activated human platelets on the activation of human factor IX by human factor XIa. Factor IXa formed during activation was determined via its ability to activate bovine factor X. To increase sensitivity, phospholipids and bovine factor VIIIa were present in the assay. The kinetic parameters of the factor IX activation were determined in the presence of 10 mmol/L CaCl2. The Km for factor IX was 0.30 mumol/L and kcat was 2.4 s-1. Activated human platelets inhibited factor IX activation by factor XIa in a dose-dependent manner, whereas unstimulated platelets had no effect. Factor IX activation was inhibited for more than 90% at a platelet concentration of 4 X 10(8)/mL, whereas concentrations of less than 10(6)/mL had no influence. The inhibitory effect could be induced by thrombin, collagen, calcium ionophore A 23187, and adrenalin. The appearance of inhibitory activity could be blocked by the addition of the prostacyclin analogue ZK 36374 at any time during platelet activation. Stirring during platelet activation was not necessary. These results suggest that the inhibition is caused by a release reaction. This was confirmed by centrifugation experiments that showed that the inhibitory activity could be recovered from the supernatant of the activated platelets. The inhibitory activity was destroyed upon boiling and was susceptible to trypsin digestion. Passage of platelet supernatant over ACA 22 showed that the inhibitory activity eluted with an apparent molecular weight of less than 1,200,000 but greater than 669,000. The inhibition of factor XIa was reversible. These data suggest that platelets release an antiprotease of factor XIa that reversibly inhibits factor XIa. Lineweaver-Burk analysis showed that the inhibitor caused both an increase in Km for factor IX and a decrease in kcat of factor IXa formation by factor XIa.
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PMID:The effect of platelets in the activation of human blood coagulation factor IX by factor XIa. 348 52

Previous studies have demonstrated a Factor IX and IXa binding site on the endothelial cell surface for which both the zymogen and enzyme compete with equal affinity. In this report, we demonstrate that the affinity of Factor IXa, but not Factor IX, for the cell surface is increased in the presence of both Factors VIII and X. When Factor Xa formation was studied in the presence of saturating concentrations of Factors VIII and X, the half-maximal rate was observed at a Factor IXa concentration of 151 +/- 12 pM. Active site-blocked Factor IXa, 5-dimethylaminonaphthalene-1-sulfonyl-Glu-Gly-Arg-Factor IXa, was a more effective inhibitor of Factor X activation (Ki = 124 pM) than was Factor IX (Ki = 3.0 nM). Radioligand binding studies carried out in the presence of Factors VIII and X confirmed the presence of a selective endothelial cell Factor IXa binding site with Kd = 127 +/- 27 pM. In contrast, when Factor IXa binding was studied in the absence of other coagulation factors, or in the presence of Factor VIII (thrombin-activated or unactivated) alone, this new high affinity site was not observed. Competitive binding studies indicated that Factor IXa was 12 times more effective as an inhibitor of Factor IX-endothelial cell binding in the presence of Factors VIII and X. Consistent with the increased affinity of Factor IXa binding in the presence of factors VIII and X, cell-associated Factor IXa coagulant activity decayed 7 times more slowly in the presence of these coagulation factors. These results demonstrate selective Factor IXa-endothelial cell binding in the presence of Factors VIII and X, suggesting this interaction could be a physiologic occurrence.
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PMID:The binding of factor IXa to cultured bovine aortic endothelial cells. Induction of a specific site in the presence of factors VIII and X. 392 79

A persistent puzzle in our understanding of hemostasis has been the absence of hemorrhagic symptoms in the majority of patients with Hageman trait, the hereditary deficiency of Hageman factor (factor XII). One proposed hypothesis is that alternative mechanisms exist in blood through which plasma thromboplastin antecedent (PTA, factor XI) can become active in the absence of Hageman factor. In order to test this hypothesis, the effect of several proteolytic enzymes, among them thrombin, plasma kallikrein, and trypsin, was tested upon unactivated PTA. PTA was prepared from normal human plasma by Ca(3)(PO(4))(2) adsorption, ammonium sulfate fractionation, and successive chromatography on QAE-Sephadex (twice). Sephadex-G150, and SP-Sephadex. The partially purified PTA was almost all in its native form, with a specific activity of 45-70 U/mg protein; the yield was about 10%. It contained no measurable amounts of other known clotting factors, plasmin, plasminogen, nor IgG. Incubation of PTA with trypsin generated potent clot-promoting activity that corrected the abnormally long clotting time of plasma deficient in Hageman factor or PTA but not in Christmas factor. This clot-promoting agent behaved like activated PTA on gel filtration (apparent molecular weight: 185,000) and was specifically inhibited by an antiserum directed against activated PTA. These data suggested that PTA can be converted into its active form by trypsin. PTA was not activated by thrombin, chymotrypsin, papain, ficin, plasmin, plasma kallikrein, tissue thromboplastin, or C. Trypsin converted PTA to its active form enzymatically. Whether trypsin serves to activate PTA in vivo is not yet clear.
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PMID:Partial purification of plasma thromboplastin antecedent (factor XI) and its activation by trypsin. 426 22

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