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)

Heparin cofactor II (HCII), a member of the "serpin" family of serine protease inhibitors, is a 65,600-Da plasma glycoprotein that inhibits thrombin and chymotrypsin. The rate of thrombin inhibition is stimulated approximately 1000-fold by heparin or dermatan sulfate. Thrombin and chymotrypsin cleave the Leu444-Ser445 bond (designated P1-P'1) in the reactive site of HCII, forming a stable equimolar complex in which the protease is inactive. In this study, we have determined the effects of substituting an arginine for Leu444 in recombinant HCII (rHCII). The rHCII was expressed in Escherichia coli and partially purified by heparin-Sepharose chromatography. Apparent second-order rate constants (k2) for inhibition of thrombin, coagulation factor Xa, kallikrein, plasmin, and chymotrypsin by rHCII were determined using appropriate chromogenic substrates. In the absence of a glycosaminoglycan, rHCII(Leu444----Arg) inhibited thrombin at a 98-fold higher rate (k2 = 6.2 x 10(6) M-1 min-1) than native rHCII (k2 = 6.3 x 10(4) M-1 min-1). Dermatan sulfate accelerated thrombin inhibition by both forms of rHCII, but the maximum rate constant in the presence of dermatan sulfate was only 2-fold higher for rHCII(Leu444----Arg) (k2 = 5.3 x 10(8) M-1 min-1) than for native rHCII (k2 = 2.2 x 10(8) M-1 min-1). Heparin was less effective than dermatan sulfate in stimulating both forms of rHCII. Factor Xa, kallikrein, and plasmin were inhibited more rapidly and chymotrypsin more slowly by rHCII(Leu444----Arg) than by native rHCII. These effects are qualitatively similar to those observed with the natural mutant alpha 1-antitrypsin Pittsburgh (Met358----Arg at the P1 position) and strengthen the hypothesis that the P1 residue is a major determinant of protease specificity in the serpins. Furthermore, the rapid rate of inhibition of thrombin by rHCII(Leu444----Arg) in the absence of heparin or dermatan sulfate suggests that this variant may be useful as a therapeutic agent.
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PMID:Substitution of arginine for Leu444 in the reactive site of heparin cofactor II enhances the rate of thrombin inhibition. 213 9

Heparin cofactor II (HC II) is a recently characterized protein that is capable of neutralizing thrombin but not activated factor X. Recent evidence suggests that it may be a physiologically important regulator of thrombin activity. We evaluated and modified a method for clinical laboratory determination of this protein and then utilized the method to analyze HC II activity in various clinical samples. Low levels were associated with liver disease, consumptive coagulopathy, and preeclampsia; normal levels were seen with uncomplicated pregnancy, oral anticoagulant therapy, hereditary antithrombin III (AT III) deficiency, and in 31 patients evaluated for a thrombotic tendency. Except in hereditary AT III deficiency, decreased HC II activity was associated with decreased AT III activity. The potential clinical role of this assay is discussed.
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PMID:Laboratory determination of heparin cofactor II. 377 42

Heparin cofactor II (HC II) has been purified from human plasma by a modification of the method described by Tollefsen et al. (J. Biol. Chem., 257, 2162, 1982) and abilities of dextran sulfate and various glycosaminoglycans to activate the antithrombin activities of HC II and antithrombin III (AT III) were studied. By the purification method described here, highly purified HC II with the same specific activity as reported by Tollefsen et al. was obtained with a higher yield and in a shorter purification time. Heparin, dextran sulfate and chondroitin polysulfates 1 and 5 activated both HC II and AT III, while dermatan sulfate activated only HC II. Dextran sulfate was almost as active as heparin in the activation of HC II and AT III, indicating that in the interactions of heparin with HC II and AT III, sulfate groups of heparin are more important than carboxyl groups. When mixed with thrombin in the presence of dermatan sulfate, normal human plasma showed antithrombin activity which was not due to AT III but to HC II only. HC II did not inhibit factor Xa or plasmin in the presence of any glycosaminoglycans or dextran sulfate, suggesting that HC II would be a specific inhibitor of thrombin.
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PMID:Purification and biological property of heparin cofactor II: activation of heparin cofactor II and antithrombin III by dextran sulfate and various glycosaminoglycans. 608 76

Plasma levels of antithrombin-heparin cofactor, determined by heparin-dependent antithrombin assay, and antithrombin III antigen were measured in 22 members of a large kindred predisposed to venous thrombosis. While 11 members had reduced plasma levels of both antithrombin-heparin cofactor and antithrombin III antigen, the levels of antithrombin-heparin cofactor were always greater than the levels of antithrombin III antigen: 66% (+/- 7%) and 49% (+/- 5%) of normal plasma, respectively. Pooled normal plasma and plasma from one of the affected family members (60% antithrombin-heparin cofactor and 47% antithrombin III antigen) were fractionated by heparin-agarose affinity chromatography. Antithrombin-heparin cofactor, which eluted from heparin-agarose with buffer containing 0.4 M NaCl and did not cross-react with antibody specific for antithrombin III and did not inhibit factor Xa at an appreciable rate in the presence of heparin, was designated heparin cofactor A. Antithrombin-heparin cofactor, which eluted from heparin-agarose with buffer containing 2.0 M NaCl, was functionally and antigenically identified as antithrombin III. The concentrations of heparin cofactor A in normal and patient plasma were similar (4.5 x 10(-7) M), while the concentration of antithrombin III in patient plasma (8.0 x 10(-7) M) was only 50% of normal (1.6 x 10(-6) M). The functional properties of both heparin cofactor A and antithrombin III obtained from patient plasma were normal. From the results of the present study it would appear that the antithrombin-heparin cofactor concentrating measured in patient plasma reflects the combined concentrations of heparin cofactor A and antithrombin III. Since heparin cofactor A does not cross-react with antibody to antithrombin III, the concentration of antithrombin III antigen in patient plasma is thus lower than the concentration of antithrombin-heparin cofactor.
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PMID:Heparin cofactor activities in a family with hereditary antithrombin III deficiency: evidence for a second heparin cofactor in human plasma. 618 96

Dermatan sulphate does not catalyse the inactivation of factor Xa. However, the low molecular weight (LMW) dermatan sulphate Desmin 370 has been shown to generate circulating anti-Xa activity following administration to humans. Using a single batch of Desmin 370, we measured 3 U/mg of anti-Xa activity by amidolytic assay in vitro. The material responsible for this activity had a lower molecular weight range (6000 and 1800 Da) than Desmin 370 and was more highly sulphated than the bulk of the drug. Heparinase digestion of Desmin 370 eliminated 90% of the in vitro anti-Xa activity without significantly interfering with its ability to potentiate inactivation of thrombin by HCII, suggesting that the anti-Xa activity is not due to dermatan sulphate and is probably heparin. When 125I-labelled Desmin 370 together with 40 mg/kg carrier drug was administered intravenously to a rabbit, anti-Xa activity was readily detectable in the plasma for up to 10 h and had a longer half-life than the sulphated radiolabel. Most of this anticoagulant activity was recovered from the plasma by Polybrene affinity chromatography and was probably a sulphated glycosaminoglycan. Administration of the heparinase-digested drug to a rabbit resulted in 70% less anti-Xa activity than the undigested drug. We conclude that Desmin 370 contains detectable quantities of biologically active low molecular weight heparin, which is responsible for persistent anti-Xa activity following intravenous administration.
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PMID:Low molecular weight heparin is responsible for the anti-Xa activity of Desmin 370. 881 78

Heparin cofactor II (HC II) is a plasma glycoprotein which inhibits thrombin but not factor Xa and which requires heparin or other glycosaminoglycans for its activation. Although several pedigrees have been reported in which 50% decreases in plasma HC II were associated with venous or arterial thrombosis, the role of HC II deficiency in inherited thrombophilia remains unproved. The present study was performed to determine the prevalence of HC II deficiency among patients with a history of venous thrombosis. HC II antigen was measured by electroimmunoassay in 122 unrelated patients with first episode of deep vein thrombosis developed before the age of 45 and in 114 healthy volunteers. Of the controls, 1 had a low HC II concentration (37%), while in the remaining 113, levels ranged from 65 to 180% with the mean value of 98.6 +/- 20.6%. In thrombosis patients, the mean HC concentration was 99.9 +/- 28.0%: individual values ranged from 52 to 180%. Seven patients (5.7%) exhibited values beneath the lower limit of the normal range (65%). These results indicate that HC II deficiency is more prevalent among patients with venous thromboembolism than in healthy subjects.
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PMID:Prevalence of heparin cofactor II deficiency in patients with a history of venous thrombosis. 911 38

Heparin cofactor II is postulated to be an extravascular thrombin inhibitor that is physiologically stimulated by dermatan sulfate. However, the role of heparin cofactor II has not yet been clearly demonstrated in vivo. In this study, we estimated the antithrombotic effect of heparin cofactor II administered exogenously in a rat model of thrombosis. Thrombus was induced in the rat femoral artery by endothelial damage due to the photochemical reaction between systemically injected rose bengal and transillumination with green light. Pretreatment with heparin cofactor II significantly prolonged the time required to occlude the femoral artery (occlusion time) in a dose-dependent manner. At an effective dose in this thrombosis model, heparin cofactor II did not prolong the activated partial thromboplastin time and the prothrombin time in normal rats. Argatroban, a selective synthetic thrombin inhibitor, significantly prolonged the occlusion time. However, argatroban also prolonged the activated partial thromboplastin time and prothrombin time at an effective dose. These results suggest that the administration of heparin cofactor II in vivo effectively inhibited thrombus formation on the vessel walls whose endothelium is damaged without a prolongation of the coagulation time while heparin cofactor II may also inhibit the thrombin activity in the subendothelial tissue in vivo.
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PMID:Heparin cofactor II inhibits thrombus formation in a rat thrombosis model. 1070 37

A 15-year-old woman with a history of transient dysarthria two years before, suddenly developed weakness of right upper extremity, right facial palsy, and dysarthria. She was admitted to our hospital on the third day. She had no hypertension, heart murmur and oedema. On neurological examination, she had mild right hemiparesis including face muscles and mild dysarthria. The right knee jerk was brisk with no Babinski's sign. Ataxia and sensory disturbance were not present. T2-weighted MRI showed a hyperintensity at the posterior limb of the left internal capsule. Cerebral angiography was unremarkable. Ultracardiography and 24-hour electrocardiography were normal. Laboratory data revealed no inflammatory findings, liver dysfunction, hyperglycemia and hyperlipidemia. Antinuclear and anticardiolipin antibodies were negative. Prothrombin time was normal, but activated partial thromboplastin time was slightly prolonged (35.4 sec, normal 25.2-34.4). Protein C, protein S and antithrombin III were normal. Heparin cofactor II (HC II) activity was decreased (44%) with normal HC II antigen (79%) and so she was diagnosed as heparin cofactor II deficiency type II (heparin cofactor II abnormality). Her father manifesting thromboangitis obliterans also had low HC II activity with normal HC II antigen. However, on her genetic analysis, we didn't detect any mutations in the coding region of HC II gene. Until now she has no recurrence of cerebrovascular attacks. On the basis of these results, we suspect that HC II deficiency was a possible risk factor of cerebral infarction in this case because she was so young and had no general risk factors except for HC II. No stroke associated with HC II deficiency type II has been reported up to date. This case is worth considering etiologies of juvenile cerebral infarction.
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PMID:[Juvenile cerebral infarction associated with heparin cofactor II abnormality. A case report]. 1096 62

Heparin and other iduronic acid-containing glycosaminoglycans (GAG) such as dermatan sulfate exert their anticoagulant properties primarily by accelerating the rate of inhibition of the natural protease inhibitors antithrombin III (AT, which inhibits both factor Xa and thrombin) and heparin cofactor II (HCII, which selectively inhibits thrombin). Although AT and HCII are structural homologs, only heparin binds to AT, and HCII has different binding sites for heparin and dermatan sulfate. Whereas the binding site of heparin for AT is a unique pentasaccharide sequence contained in only about one third of the chains of this GAG, HCII-binding sequences of heparin and dermatan sulfate are less specific and contained in practically all the GAG chains. Protein binding and associated biological activities of heparin and dermatan sulfate are modulated by the "plasticity" of their iduronic acid residues due to the availability of up to three equienergetic conformation among which the protein selects the one favouring the most stable complex. Glycol-splitting of nonsulfated uronic acid residues, a device for generating flexible joints along the GAG chains, has different effects on different binding domains. Whereas it inactivates the binding site for AT causing a drop of the anticoagulant activity, it enhances the HCII-associated activity of both heparin and dermatan sulfate.
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PMID:Structural and conformational aspects of the anticoagulant and anti-thrombotic activity of heparin and dermatan sulfate. 1507 25

The present study examined changes in maternal blood parameters, particularly those related to blood coagulation, as well as alterations in blood coagulation-related gene expression in the liver during gestation in rats. Fibrinogen concentration and platelet count increased as pregnancy progressed whereas prothrombin time and overall activity of vitamin-K-dependent coagulation factors decreased before delivery, suggesting a physiologic response to prevent prolonged bleeding at parturition. Conversely, compared with values for nonpregnant rats, activated partial thromboplastin time was prolonged before delivery and antithrombin time was significantly higher during fetal organogenesis and thereafter, indicating a mechanism to prevent the development of deep tissue thrombosis in dams. DNA microarray analysis revealed no differences in coagulation-related gene expression in the liver on gestation day 13 between pregnant and nonpregnant rats, whereas the gene expression of various fibrinogen-related factors, coagulation factors II and X, and the anticoagulation factor-related factor leuserpin 2 were increased on gestational day 19. In addition, changes similar to those reported previously in pregnant rats were confirmed. The data obtained from the present study can be used as background data for effective evaluation of reproductive toxicology in rats, and they suggest that the rat is a useful animal model for investigating the mechanisms of disorders in the blood coagulation system that can occur during late pregnancy in women.
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PMID:Changes in blood parameters and coagulation-related gene expression in pregnant rats. 1947 16

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