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:3.4.21.6 (thromboplastin)
13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitogenesis, cell differentiation and immune-inflammatory responses are regulated by the coordinated assembly of proteases with specific cellular receptors. We have investigated the possibility that immune effector cells may express a high-affinity protease receptor. To address this hypothesis, we have generated mAb to factor V and its activated form Va, a circulating plasma protein that binds the serine protease of the coagulation cascade, factor Xa. Further, by flow microfluorimetry screening, we have isolated a panel of these mAb that recognize a surface molecule expressed on transformed monocytic cells. We now show that these mAb bind to blood monocytes, to CD3- CD16+ CD56+ NK cells, and with considerable heterogeneity, to neutrophils. A small subset of CD3+ cells (5 to 10%) was also identified by these probes and further phenotypically characterized by two-color flow microfluorimetry as predominantly coexpressing CD2, CD4 or CD8, CD57, CD11b, and alpha/beta TCR. This subset of CD3+ cells was expanded in vitro by both lectin- or Ag-specific stimulation. In addition, long term alloreactive stimulation resulted in approximately 8- to 10-fold increased expression of the molecule recognized by these mAb. Functional analyses were performed on a selected T cell clonal derivative of the transformed cell line HuT 78. These cells bound 125I-factor Xa in a specific reaction saturated at 194,000 +/- 26,000 molecules/cell with a Kd approximately 10 to 20 nM and inhibited by the mAb panel described above. These data suggest that immune effector cells express a dynamically regulated protease receptor that is immunologically related to the plasma coagulation protein factor V and its activated form Va. We propose the term effector cell protease receptor-1 to tentatively identify this molecule, and we speculate on its possible involvement in specialized protease-mediated effector functions.
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PMID:Identification of effector cell protease receptor-1. A leukocyte-distributed receptor for the serine protease factor Xa. 216 87

Coagulation factor Va is a cofactor which combines with the serine protease factor Xa on a phospholipid surface to form the prothrombinase complex. The phospholipid-binding domain of bovine factor Va has been reported to be located on the light chain of the molecule and more precisely on a fragment of Mr = 30,000 which is obtained after digestion of factor Va light chain by factor Xa. This proteolytic fragment is located in the NH2-terminal part of factor Va light chain (residues 1564-1765). In order to further characterize the lipid-binding domain of bovine factor Va, isolated bovine light chain was preincubated with synthetic phospholipid vesicles (75% phosphatidylcholine, 25% phosphatidylserine) and digested with trypsin, chymotrypsin, and elastase. Two peptide regions protected from proteolytic cleavage were identified and characterized from each proteolytic digestion. A comparison of the NH2-terminal sequence and amino acid composition of the two tryptic peptides with the deduced sequence of human factor V indicates a match with residues 1657-1791 of the light chain of human factor V for one peptide and residues 1546-1656 for the other peptide. When chymotrypsin or elastase were used for digestion, the NH2-terminal sequence of one peptide showed a match with residues 1667-1797 of the light chain, while the other peptide presented an NH2-terminal sequence identical with the previously described for the bovine factor Va light chain. When these peptides were assayed for direct binding to phospholipid vesicles, only the tryptic and the chymotryptic peptides covering the middle region of the A3 domain of the bovine factor Va light chain demonstrated an ability to interact with phospholipid vesicles. Thus, knowing that the factor Xa cleavage site on the factor Va light chain is located between residues 1765 and 1766 of the light chain this lipid-binding region of the bovine factor Va is further localized to amino acid residues 1667-1765.
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PMID:Identification and characterization of a phospholipid-binding site of bovine factor Va. 225 16

Proclotting enzyme is an intracellular serine protease zymogen closely associated with an endotoxin-sensitive hemolymph coagulation system in limulus. Its active form, clotting enzyme, catalyzes conversion of coagulogen to insoluble coagulin gel. We present here the cDNA and amino acid sequences, disulfide locations, and subcellular localization of proclotting enzyme. The isolated cDNA for proclotting enzyme consists of 1,501 base pairs. The open reading frame of 1,125 base pairs encodes a sequence comprising 29 amino acid residues of prepro-sequence and 346 residues of the mature protein with a molecular mass of 38,194 Da. Three potential glycosylation sites for N-linked carbohydrate chains were confirmed to be glycosylated. Moreover, the zymogen contains six O-linked carbohydrate chains in the amino-terminal light chain generated after activation. The cleavage site that accompanies activation catalyzed by trypsin-like active factor B, proved to be an Arg-Ile bond. The resulting carboxyl-terminal heavy chain is composed of a typical serine protease domain, with a sequence similar to that of human coagulation factor XIa (34.5%) or factor Xa (34.1%). The light chain has a unique disulfide-knotted domain which shows no significant homology with any other known proteins. Thus, this proclotting enzyme has a mammalian serine protease domain and a structural domain not heretofore identified in coagulation and complement factors. Immunohistochemical studies showed that the proclotting enzyme is localized in large granules of hemocytes.
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PMID:Proclotting enzyme from horseshoe crab hemocytes. cDNA cloning, disulfide locations, and subcellular localization. 226 34

Factor IX is the zymogen of the serine protease factor IXa involved in blood coagulation. In addition to a catalytic domain homologous to the chymotrypsin family, it has Ca2+, phospholipid, and factor VIIIa binding regions needed for full biologic activity. We isolated a nonfunctional factor IX protein designated factor IXEagle Rock (IXER) from a patient with hemophilia B. The variant protein is indistinguishable from normal factor IX (IXN) in its migration on sodium dodecyl sulfate-gel electrophoresis, isoelectric point in urea, carbohydrate content and distribution, number of gamma-carboxyglutamic acid residues, and beta-OH aspartic acid content, and in its binding to an anti-IXN monoclonal antibody which has been shown previously to inhibit the interaction of factor VIIIa with factor IXaN. Further, IXER is cleaved to yield a factor IXa-like molecule by factor XIa/Ca2+ at a rate similar to that observed for IXN. However, in contrast to IXaN, IXaER does not bind to antithrombin-III (specific inhibitor of IXaN) and does not catalyze the activation of factor X (substrate) to factor Xa. To identify the mutation in IXER, all eight exons of IXN and IXER gene were amplified by the polymerase chain reaction technique and cloned. A single point mutation (G----T) which results in the replacement of Val for Gly363 in the catalytic domain of IXER was identified. Gly363 in factor IXa corresponds to the universally conserved Gly193 in the active site sequence of the chymotrypsin serine protease family. X-ray crystallographic data in the literature demonstrate a critical role of this Gly in stabilizing the active conformation of chymotrypsin/trypsin in two major ways: 1) in the formation of the substrate binding site; and 2) in the development of the oxyanion hole. Our computer structural data support a concept that the Gly363----Val change prevents the development of the active site conformation in factor IXa such that the substrate binding site and the oxyanion hole are not formed in the mutated enzyme.
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PMID:Experimental and theoretical evidence supporting the role of Gly363 in blood coagulation factor IXa (Gly193 in chymotrypsin) for proper activation of the proenzyme. 230 34

The thromboresistant function of a surface with end-point attached heparin is based upon interaction among the immobilized heparin, antithrombin, and at least factor Xa or thrombin. Heparinized arteriovenous shunts were implanted in dogs. By compressing a segment of the shunt, high and low wall shear rate regions were obtained in each shunt. After removal, the tubings were tested for their factor Xa and thrombin inhibitory capacity. It was found that on a molar basis, the factor Xa and thrombin inhibitory capacity were similar in low wall shear rate segments. In high wall shear rate segments, the thrombin inhibitory capacity was decreased, thus indicating that the AT-mediated inhibition of the serine protease is dependent on the wall shear rate.
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PMID:Influence of high and low wall shear rates on the inhibition of factor Xa and thrombin at surfaces coated with immobilized heparin. 260 95

Blood coagulation can be initiated when factor VII or VIIa, a plasma protease, binds to its essential cofactor, tissue factor (TF), and proteolytically activates factors IX and X, triggering a cascade of events which eventually leads to the formation of thrombin and a fibrin clot. Plasma contains a lipoprotein-associated coagulation inhibitor (LACI) which inhibits activated factor X (Xa) directly and, in a Xa-dependent way, inhibits VII(a)/TF activity, presumably by forming a quaternary Xa/LACI/VII(a)/TF complex. Sequence analysis of complementary DNA clones has shown that LACI contains three tandemly repeated Kunitz-type serine protease inhibitory domains. To investigate the relationship between these Kunitz structures and LACI function, we have used site-directed mutagenesis to produce altered forms of LACI in which the residue at the active-site cleft of each Kunitz domain has been individually changed. The second Kunitz domain is required for efficient binding and inhibition of Xa, and both Kunitz domains 1 and 2 are required for the inhibition of VIIa/TF activity; but alteration of the active-site residue of the third Kunitz domain has no significant effect on either function. We propose that in the putative inhibitory complex, Kunitz domain 1 is bound to the active site of VII(a)/TF and that Kunitz domain 2 is bound to Xa's active site.
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PMID:Functional significance of the Kunitz-type inhibitory domains of lipoprotein-associated coagulation inhibitor. 292 10

Human factor X is the vitamin K-dependent proenzyme of a plasma serine protease that participates in the cascade of events leading to blood coagulation. It is converted to its active form, factor Xa, after specific cleavage by other plasma proteases or the protease from Russel's Viper venom. We have separated Factor X from factor Xa by reversed-phase high-performance liquid chromatography using an increasing gradient of acetonitrile in 0.1% trifluoroacetic acid. The factor X and factor Xa activities were well separated from each other on a wide-pore diphenyl column (Whatman Protesil 300) in less than 30 min. Both factor X and factor Xa activities were found to be essentially unaffected by the solvent system. This system was used to evaluate the purity of several factor X and factor Xa preparations. The kinetics of the Russel's Viper venom catalyzed conversion of factor X to factor Xa was also studied by using this chromatography system. A time-dependent decrease in the protein peak corresponding to factor X and a corresponding increase in the factor Xa protein peak was observed upon incubation with Russel's Viper venom.
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PMID:Separation of human factor X from factor Xa by reversed-phase high-performance liquid chromatography. 320 25

Three hydrolases from the crude venom of the Malayan pit viper (Akistrodon rhodostoma) can be differentiated. The first, which we designate ARH alpha, is the well-known fibrinogenolytic enzyme ancrod. The second, ARH beta, which has not been described previously, is identified by its electrophoretic mobility after sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), by its ability to hydrolyze H-D-phenylalanyl-L-piperyl-L-arginyl-rho-nitroanilide, and by inhibition of its activity by diisopropyl phosphorofluoridate. The third, ARH gamma, also previously not described, has been purified by using gel permeation and ion-exchange chromatography and preparative PAGE. Chemical, electrophoretic, and hydrodynamic data indicate that it is a single-chain, nonglobular glycoprotein with a molecular weight of 25,600. ARH gamma catalyzes the degradation of several plasma vitamin K dependent coagulation factors, including factor IX, factor X, prothrombin, and protein C. The products are electrophoretically similar to factor IXa beta, factor Xa, thrombin, and activated protein C, respectively. However, these products contain little or no enzymatic activity. ARH gamma-degraded factor IX, factor X, prothrombin, and protein C can be subsequently activated by factor XIa, Russell's viper venom X coagulant protein, crude taipan snake venom, and thrombin, respectively. The N-terminal sequence of the peptides resulting from the ARH gamma digest of porcine factor IX shows that at least three bonds are hydrolyzed: (1) at position 152, seven residues from the Arg145-Ala146 factor XIa cleavage site; (2) at position 167 within the factor IX activation peptide; and (3) at position 177, three residues from the Arg180-Val181 factor XIa cleavage site. The degradation of factor IX by ARH gamma is not affected by several serine protease inhibitors. ARH gamma catalyzes the degradation of both the heavy and light chains of porcine factor VIII which results in the inability of thrombin to activate factor VIII. ARH gamma also catalyzes the degradation of porcine antithrombin III which abolishes its ability to inhibit thrombin. These findings may have relevance to studies of hemostatic derangements following envenomation by this snake. Additionally, several novel coagulation factor derivatives have been generated for structure-function studies.
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PMID:Degradation of coagulation proteins by an enzyme from Malayan pit viper (Akistrodon rhodostoma) venom. 332 4

In vitro effects of S-2441, H-D-Pro-Phe-Arg-NH-Heptyl, include potent anti-bradykinin activity and broad-spectrum inhibition of serine proteases involved in the coagulation cascade. In this study, rats infused with 7.8 X 10(8) viable Escherichia coli were treated either with saline (group A) or with intravenous (0.1 mg) and intraperitoneal (0.4 mg) doses of S-2441 (group B). Survival rates for groups A and B were 68% and 98%, at 12 hours (P less than 0.001), and 37% and 73% at 24 hours (P less than 0.001), respectively. Hematologic studies revealed that S-2441 significantly inhibited E. coli-induced prolongation of prothrombin time and partial thromboplastin time as well as a rapid decrease in the values of factor X, anti-thrombin III, and fibrinogen. In addition, S-2441 attenuated E. coli-induced hypoglycemia and a marked reduction of serum complement level. Ultrastructural evaluation of the liver demonstrated that S-2441 prevented the development of extensive sinusosoidal microthrombosis and hepatocellular necrosis. The results indicate that S-2441 affords protection in lethal gram-negative bacteremia owing in part to attenuation of disseminated intravascular coagulation and complement-mediated reactions. The findings are consistent with the concept that S-2441 and related oligopeptides modulate serine protease-mediated responses involving inhibition of active enzymes with competitive antagonism of pharmcologically active products formed during the activation of coagulation, fibrinolytic, kallikrein, and complement systems.
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PMID:Efficacy of S-2441, a synthetic oligopeptide, in a rat model for gram-negative bacteremia. 388 74

The significance of baseline coagulation times and plasma concentrations of serine protease inhibitors as determinants of the relationship between heparin activity and its anticoagulant effect has been investigated in vitro. Citrated plasma was prepared from blood obtained from 20 normal subjects, and heparin added to yield concentrations ranging from 0.05 to 1.5 units/ml. The anticoagulant effect was determined by the activated partial thromboplastin time (APTT) and thrombin time (TT). An excellent linear relationship was observed between the natural logarithms (ln) of the coagulation times and heparin activity. Baseline APTT values ranged from 28.4 to 59.7 s and the slope values for the ln APTT vs heparin curves ranged from 1.488 to 3.427 ml/unit. Similar range was observed in the slope values for the ln TT vs heparin curves. There was a highly significant positive correlation between the ln APTT vs heparin slope values and the baseline APTT values (r: 0.905; p less than 0.001). There was also a weak but statistically significant positive correlation between plasma concentrations of alpha 2 macroglobulin and baseline APTT values (0.02 greater than 0 greater than 0.01) and slope values of the ln APTT vs heparin curves (0.02 greater than p greater than 0.01). Furthermore, there was a statistically significant positive correlation between plasma concentrations of alpha 1 antitrypsin and baseline TT values (0.05 greater than p greater than 0.02) and slope values of the 1n TT vs heparin (0.02 greater than p greater than 0.01). Neither baseline APTT and TT values nor slope values of the ln APTT and TT vs heparin curves were statistically significantly related to plasma concentrations of antithrombin III, fibrinogen, or alpha 1 acid glycoprotein. This study has demonstrated that baseline APTT is a major determinant of the anticoagulant response to heparin in vitro, as determined by that same coagulation test, and it illustrates that there is a wide intersubject variation in the anticoagulant response to heparin in vitro.
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PMID:Intersubject variability in the anticoagulant response to heparin in vitro. 617 54


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