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)

The current experiments examine the reaction between purified human alpha-thrombin and purified human factor VIII and compare this with the reaction between alpha-thrombin and the low molecular weight factor VIII procoagulant activity obtained by high ionic strength dissociation. The reaction patterns of both procoagulants are similar, demonstrating in initial increase in factor VIII activity followed by a decay of procoagulant activity. The extent of activation which is observed in the initial phase decreases with lower temperatures and with lower thrombin concentrations. A pseudo-first order relationship is demonstrated for the activation phase. The labile factor VIII procoagulant activity produced by the initial action of thrombin appears to be intrinsically unstable, since the addition of hirudin or diisopropylfluorophosphate does not prevent the subsequent decay of the procoagulant activity. The similar activation and decay patterns of purified factor VIII and the dissociated low molecular weight factor VIII procoagulant support the concept that the low molecular weight procoagulant itself represents the functional coagulant moiety of the factor VIII complex.
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PMID:Thrombin activation of factor VIII. II. A comparison of purified factor VIII and the low molecular weight factor VIII procoagulant. 63 56

Experiments were designed to investigate whether platelet activation is modulated by endothelium-derived relaxant factor (EDRF) which has been shown to induce vascular smooth muscle relaxation by direct stimulation of soluble guanylate cyclase. EDRF was released from cultured bovine endothelial cells, grown on microcarrier beads, by stimulation with thimerosal in the presence of indomethacin. EDRF had no effect on the intracellular free calcium concentration (Cai2+, measured with the fluorescent indicator indo-1) of resting washed human platelets but significantly attenuated the thrombin-induced rise of Cai2+ from 896 +/- 99 (SEM) to 509 +/- 48 nmol/l. EDRF significantly increased platelet cyclic GMP levels from 0.25 +/- 0.04 to 2.5 +/- 0.4 pmol/10(8) platelets and reduced the thrombin-induced aggregation to 23 +/- 3% of control. EDRF had no effect on Cai2+, cyclic GMP or aggregation after a 3 min storage interval, but superoxide dismutase (shown to increase stability of the labile factor) significantly augmented the EDRF effects on Cai2+. The antiaggregatory potency of EDRF was completely abolished in the presence of hemoglobin. The results characterize EDRF as a potent cyclic GMP-dependent antiaggregatory factor which may act synergistically in vivo with the cyclic AMP-dependent inhibitory effect of prostacyclin.
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PMID:Endothelium-derived relaxant factor inhibits platelet activation. 283 May 46

Three classes of vasodilators mediate their effects through the activation of guanylate cyclase and the increased synthesis of cyclic GMP. Nitrovasodilators such as nitroglycerin, nitroprusside, hydroxylamine, azide, etc. result in the generation of the nitric oxide free radical that activates the cytosolic (soluble) isoenzyme form of guanylate cyclase. These agents have been useful in increasing cyclic GMP synthesis in numerous model systems and these effects are independent of extracellular calcium. The increased synthesis of cyclic GMP and the activation of cyclic GMP-dependent protein kinase result in the altered phosphorylation of many smooth muscle proteins including the dephosphorylation of myosin light chain, which is associated with vascular and tracheal smooth muscle relaxation. These latter effects may result from cyclic GMP decreasing cytosolic free calcium concentrations and the activity of myosin light chain kinase. Another class of vasodilators, designated endothelium-dependent vasodilators, includes a long list of agents such acetylcholine, histamine, A23187, ATP, thrombin, etc. that relax vessels only when the endothelium is intact. These agents result in the increased endothelial synthesis and/or release of a factor(s) designated endothelial-derived relaxant factor (EDRF), the structure of which is unknown. This labile factor also activates the soluble isoenzyme form of guanylate cyclase in the smooth muscle resulting in cyclic GMP accumulation and the same cascade of events as above. There is evidence that even under basal, non-stimulated conditions there is EDRF release that influences vascular tone due to the increased synthesis of cyclic GMP. A third class of vasodilators, atrial natriuretic factor (ANF) or atriopeptins, includes a family of peptides that are produced in cardiac atria and other tissues and influence cardiovascular volume and dynamics by causing natriuresis, diuresis, vasodilation and decreased renin, aldosterone and vasopressin secretion. These peptide hormones also increase cyclic GMP synthesis in vascular, renal, adrenal and other tissues. These effects are mediated through specific ANF receptors that couple to and activate the membrane (particulate) isoenzyme form of guanylate cyclase and increase cyclic GMP-dependent protein kinase activity. There are two ANF receptor subtypes in most cells and tissues that are 130,000 and 66,000 daltons. The ANF receptor of about 130,000 daltons, designated receptor ANF-R1 copurifies with particulate guanylate cyclase through numerous procedures and may be part of the membrane-associated guanylate cyclase complex.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation and role of guanylate cyclase-cyclic GMP in vascular relaxation. 289 Jan 72

Blood coagulation factor V, the labile factor, is an important cofactor in the activation of prothrombin. Approximately 10 years ago, the first purification procedures for undegraded factor V from bovine and human plasma were reported. This was the starting point for a new area in the research on factor V structure-function relationships. In parallel to this, the structure of the even more labile anti-hemophilic factor (factor VIII) has been elucidated and the two proteins are found to be very similar in structure and in function. In this mini-review, I will focus on work performed in our laboratory, which has led forward to the proposal of a new structural model for factor V. It is based on results obtained with several different techniques, including protein chemistry, DNA technology and high resolution electron microscopy. In plasma, factor V circulates as a single chain, high molecular weight protein. During coagulation a limited number of peptide bonds are cleaved in the factor V molecule by thrombin. This leads to a great increase in biological activity. The active Va species is composed of a noncovalent complex between the N- and C-terminal fragments, whereas the activation fragments correspond to the carbohydrate-rich central portion of the molecule. The activity of factor Va is regulated through the selective degradation of the N-terminal heavy chain fragment by activated protein C. Purified human and bovine factor V was examined by high resolution transmission electron microscopy. Factor V was found to be composed of four major domains, three similar sized globular structures (diameter approx. 80 A) are linked via thin spacers to a larger central domain (diameter approx. 140 A). Activation with thrombin results in a reorganization of the molecule. The thrombin cleavage sites are positioned in the spacers between the different domains and two of the peripheral domains combine to form the active Va species. The new factor V model suggests that a unique and dramatic molecular reorganization occurs during the activation of factor V by thrombin and indicates that the low biological activity of single chain factor V is due to the physical separation of the N- and C-terminal domains by the large central region. Full biological activity can only be expressed after limited proteolysis by thrombin, when the two initially separated domains are free to combine to form the active factor Va molecule.
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PMID:A new model for coagulation factor V suggesting a unique mechanism of activation. 324 83

This report describes PAF activity in normal human mixed saliva from each of 24 randomly selected donors. The human salivary PAF (HS-PAF) was similar to rabbit basophil PAF (acetyl glyceryl ether phosphorylcholine or AGEPC) with respect to the following characteristics: 1. HS-PAF co-chromatographed with the standard rabbit basophil AGEPC and with synthetic AGEPC. 2. HS-PAF and AGEPC were unaffected by hirudin, indomethacin, and creatine phosphate/creatine phosphokinase, the respective inhibitors of platelet activation induced by thrombin, arachidonic acid, and ADP. 3. HS-PAF and AGEPC were inactivated by a 5-min incubation with ALF, the acid-labile factor in normal human serum that rapidly destroys AGEPC. 4. HS-PAF was demonstrated to be functionally similar to AGEPC by cross-desensitization experiments. In the absence of Ca++, HS-PAF and AGEPC cross-desensitized washed rabbit platelets to subsequent stimulation by either HS-PAF or AGEPC after recalcification. 5. HS-PAF was demonstrated to be structurally similar to AGEPC by several simple chemical tests for functional groups.
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PMID:The presence of platelet-activating factor (PAF) in normal human mixed saliva. 724 Jul 50

To determine the prevalence of the factor V Leiden gene mutation in relation to the phenotypes of cerebral infarction and cerebral hemorrhage, we studied 386 randomly selected cases of acute stroke and 247 control subjects. Factor V genotype was determined by amplification of a 267-bp sequence of exon/intron 10 of the factor V gene. Levels of prothrombin fragment F(1 + 2), a marker of thrombin generation, were determined in both acute and convalescent stroke and related to factor V genotype. Prothrombin fragment F(1 + 2) was assessed by using an enzyme-linked immunosorbent assay. Sixteen stroke cases (4.1%) were identified as having the mutation compared with 14 (5.6%) control subjects. Prothrombin fragment F(1 + 2) levels were estimated in 191 cases and found to be elevated both acutely and after 3 months, but they were not related to factor V genotype. Prothrombin fragment F(1 + 2) is elevated in acute stroke and requires further evaluation in relation to cerebrovascular disease. These results suggest that the factor V Leiden gene mutation is not a risk factor for arterial thrombosis causing stroke.
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PMID:Factor V Leiden gene mutation and thrombin generation in relation to the development of acute stroke. 777 34

Human factor V is activated to factor Va by alpha-thrombin after cleavages at Arg709, Arg1018, and Arg1545. Factor Va is inactivated by activated protein C (APC) in the presence of a membrane surface after three sequential cleavages of the heavy chain. Cleavage at Arg506 provides for efficient exposure of the inactivating cleavages at Arg306 and Arg679. Membrane-bound factor V is also inactivated by APC after cleavage at Arg306. Resistance to APC is associated with a single nucleotide change in the factor V gene (G1691-->A) corresponding to a single amino acid substitution in the factor V molecule: Arg506-->Gln (factor V Leiden). The consequence of this mutation is a delay in factor Va inactivation. Thus, the success of the APC-resistance assay is based on the fortuitous activation of factor V during the assay. Plasmas from normal individuals (1691 GG) and individuals homozygous for the factor V mutation (1691 AA) were diluted in a buffer containing 5 mmol/L CaCl2, phospholipid vesicles (10 micromol/L), and APC. APC, at concentrations < or = 5.5 nmol/L, prevented clot formation in normal plasma, whereas under similar conditions, a clot was observed in plasma from APC-resistant individuals. Gel electrophoresis analyses of factor V fragments showed that membrane-bound factor V is primarily cleaved at Arg306 in both plasmas. However, whereas in normal plasma production of factor Va heavy chain is counterbalanced by fast degradation after cleavage at Arg506/Arg306, in the APC-resistant individuals' plasma, early generation and accumulation of the heavy chain portion of factor Va occurs as a consequence of delayed cleavage at Arg306. At elevated APC concentrations (>5.5 nmol/L), no clot formation was observed in either plasma from normal or APC-resistant individuals. Our data show that resistance to APC in patients with the Arg506-->Gln mutation is due to the inefficient degradation (inactivation) of factor Va heavy chain by APC.
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PMID:Proteolytic events that regulate factor V activity in whole plasma from normal and activated protein C (APC)-resistant individuals during clotting: an insight into the APC-resistance assay. 863 39

Venous thromboembolism (VTE) is a significant cause of morbidity and mortality in hospitalized patients. For many years, stasis in the deep veins of the legs has been recognized as being a necessary but not a sufficient cause of thrombosis. The recent demonstration of the high prevalence of a mutation at Arg506 in the factor V gene ('factor V Leiden') in patients presenting with VTE has emphasized the protective role of activated protein C in neutralizing thrombin, and has highlighted the importance of genetic factors in the pathogenesis of venous thrombosis. For many if not most patients, the prothrombotic stimulus of a surgical operation with the accompanying stasis may be a sufficient cause for VTE if endogenous anticoagulant mechanisms are impaired. In populations with a high prevalence of the FV:Q506 allele there is now a strong case for screening individuals for the mutant gene if they have a personal or family history of VTE, especially before surgery, during pregnancy or before prescribing oral contraceptives.
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PMID:Venous thrombosis revisited. 889 45

We investigated the role of the thrombomodulin (TM/protein C/protein S anticoagulant pathway in modulating the thrombogenic properties of the endothelium. Endothelial cells (ECs) were placed in parallel-plate flow chambers and exposed to nonanticoagulated human blood at a venous wall shear rate (50 s-1). Fibrin deposition on resting ECs treated with a control IgG1 was negligible. In contrast, a significant amount of fibrin deposited when TM expression was specifically suppressed by > 95% by preincubating ECs with an anti-TM IgG1. Similarly, fibrin deposited on interleukin 1-stimulated ECs, but the fibrin deposition was further increased threefold with anti-TM IgG1. Comparable results were found when ECs were perfused at 650 s-1. When TM surface activity was enhanced by 150% by treating ECs with active phorbol ester (4-phorbol 12-myristate 13-acetate; PMA), the deposition of fibrin was 30% lower than on ECs not pretreated with PMA. Finally, fibrin deposition on stimulated ECs was significantly higher in 11 untreated patients with well-characterized deficiencies of protein C or S or heterozygous factor V Leiden mutation than in 11 healthy individuals, and it was significantly correlated to basal plasma levels of thrombin-antithrombin complexes. Thus, this study underlines the central role of the TM/protein C/protein S pathway in modulating the thrombogenic status of resting and stimulated ECs and indicates that basal coagulation system markers may be helpful in monitoring patients presenting a disorder of this anticoagulant pathway.
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PMID:The thrombomodulin/protein C/protein S anticoagulant pathway modulates the thrombogenic properties of the normal resting and stimulated endothelium. 910 71

Few studies of activated protein C resistance (APCR) and thromboembolism in childhood have been published. In the majority of childhood thromboses reported, the factor V Leiden mutation was associated with venous thromboses; however, one case report and three studies described arterial thromboembolism in infants and children due to the common mutation in the factor V gene. In one neonate purpura fulminans occurred, and heparin-induced thrombocytopenia type II was additionally documented. Two case reports and seven of nine studies reported associated clinical conditions together with inherited coagulation disorders. In three studies homozygous patients were mentioned. There are few studies describing the interaction between APCR and coagulation or the fibrinolytic system in symptomatic and nonsymptomatic infants. Compared with healthy brothers or sisters and a healthy age-matched control group, thrombin generation, D-dimer, PAI-1 activity, and t-PA antigen were found clearly elevated in children with APCR. In addition, infants and children with the Arg506-to-Gln mutation in the factor V gene showed significantly increased thrombomodulin concentrations along with normal protein C activities compared with relatives and healthy controls. No difference was recorded in these studies between heterozygous infants and children without vascular occlusion and patients who previously had suffered from thromboembolism. Until long-term data are available for the treatment of patients with APCR, such children should be treated in the same way as patients with deficiencies of protein C, protein S, or antithrombin.
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PMID:APC resistance in childhood thromboembolism: diagnosis and clinical aspects. 925 6

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