Abnormal antithrombin III with defective serine protease binding (antithrombin III "Denver")

A hereditary (three family members) deficiency of antithrombin III (AT-III) in which AT-III antigen (AT-III ag) is normal in spite of low heparin cofactor and antithrombin activity is described. Plasma levels were: AT-III ag, 0.92-0.96 U/ml; AT-III heparin cofactor activity, 0.54-0.62 U/ml; progressive antithrombin activity index, 0.13-0.18; anti-Xa activity, 0.50-0.56 U/ml. Plasma crossed immunoelectrophoresis (CIE) patterns performed with and without added heparin were normal, but serum CIE revealed a decreased complex peak. Purification of the patient's plasma AT-III by heparin-sepharose affinity chromatography showed a normal protein recovery and elution profile, but the purified AT-III fraction showed only 50% of the normal progressive thrombin neutralization and anti-Xa activity. When thrombin-antithrombin (TAT) complexes were formed by incubating with excess thrombin, SDS-polyacrylamide gel electrophoresis (PAGE) analysis revealed that half the patient AT-III formed TAT complexes while the remainder migrated as free AT-III. All the control AT-III formed TAT complexes. The patient's nonreacting AT-III (AT-III "Denver"), isolated by affinity chromatography, showed CIE and SDS-PAGE migration patterns characteristic of normal AT-III but failed to bind thrombin or Xa. Calculations from turnover studies in one patient and normal subjects with autologous 131I-AT-III suggested that AT-III "Denver" is removed from the plasma slightly more rapidly than normal. These studies indicate that the patients' variant AT-III molecule was characterized by normal heparin interaction but defective binding and inhibition of thrombin and Xa. These characteristics allow isolation of the nonreactive variant molecule by heparin-sepharose affinity chromatography.     

Fibrin moderates the catalytic action of heparin but not that of dermatan sulfate on thrombin inhibition in human plasma

Three recent studies have reported that fibrin in solution significantly inhibits the ability of heparin to catalyze the inhibition of thrombin by antithrombin III. In addition, heparin inhibits the release of fibrinopeptide A by clot-bound thrombin less effectively than it inhibits the release of fibrinopeptide A by thrombin in solution. We have also reported that dermatan sulfate, which catalyzes thrombin inhibition by heparin cofactor II, inhibits thrombus growth in rabbits more effectively than heparin. Because the results of these studies suggest that fibrin inhibits the reactivity of thrombin with antithrombin III-heparin but not with heparin cofactor II-dermatan sulfate, we compared the relative catalytic effects of heparin and dermatan sulfate on thrombin inhibition in plasma, both in the presence and absence of fibrin. We quantitated the rates of thrombin inhibition by antithrombin III and heparin cofactor II by specific enzyme-linked immunosorbent assays. When it was generated, fibrin was kept in solution by adding 2 mmol/L Gly-Pro-Arg-Pro to plasma. Fibrinogen-fibrin reduced the reactivity of thrombin with plasma antithrombin III, both in the presence of and in the absence of heparin. In contrast, the catalytic action of dermatan sulfate on thrombin inhibition by plasma heparin cofactor II was unimpaired by fibrinogen-fibrin. Based on the ability of dermatan sulfate to inhibit thrombus growth in rabbits, failure of fibrinogen-fibrin to moderate the catalytic action of dermatan sulfate may account for its greater antithrombotic effectiveness relative to that of heparin.     

Identification in vitro of an endothelial cell surface cofactor for antithrombin III. Parallel studies with isolated perfused rat hearts and microcarrier cultures of bovine endothelium.

Two in vitro systems were used to identify an antithrombin III cofactor activity on vascular endothelium. Langendorff rat heart preparations or columns packed with endothelium cultured on microcarrier beads were perfused with mixtures of purified thrombin and antithrombin III. With each preparation, accelerated inhibition of thrombin by antithrombin III occurred during passage over endothelium. Platelet factor 4, protamine sulfate and diisopropylphosphoryl thrombin, all antagonists of the antithrombin III cofactor activity of heparin, significantly reduced the capacity of the preparation to inhibit thrombin. It is concluded that a substance with the functional properties of a stationary phase cofactor for antithrombin III is present on the microvascular endothelium and there catalyzes the inactivation of circulating free thrombin.     

A method of determining heparin in blood plasma based on its antithrombin activity]

The suggested method for measuring blood plasma heparin is based on heparin ability to enhance antithrombin activity of antithrombin III (AT-III), the major Xa and thrombin inhibitor. The method consists in measurement of blood plasma AT-III activity in the presence and absence of protamine sulfate that destroys the heparin--AT-III complex. Heparin content in U/ml is determined from the difference in the activities of heparin--AT-III complex and AT-III proper activity represented on the calibration curve. The method is sufficiently sensitive, it permits registration of heparin concentrations in a wide band (from 0.01 U/ml to 0.75 U/ml of plasma).     

刺参酸性粘多糖介导肝素辅因子Ⅱ对凝血酶活性的抑制

目的：进一步澄清刺参酸性粘多糖（Ｓｊａｍｐ）的抗凝血酶机制。方法：用国产Ｓｊａｍｐ作为激动剂，在正常混合血浆体系、纯化的肝素辅因子Ⅱ（ＨＣⅡ）体系以及纯化的抗凝血酶Ⅲ（ＡＴ－Ⅲ）体系研究Ｓｊａｍｐ的抗凝血酶作用机制。结果：Ｓｊａｍｐ对凝血酶的抑制主要呈ＨＣⅡ依赖性，当存在ＨＣⅡ时，Ｓｊａｍｐ抗凝血酶作用的二级速率常数Ｋ２＝１．５６×１０７ｍ－１·ｍｉｎ－１，其抑制速率常数是ＡＴ－Ⅲ的４．６倍。结论：在抗凝血酶作用方面，Ｓｊａｍｐ的效率（Ｋ２值）及机制（ＨＣⅡ依赖性）与硫酸皮肤素类似。     

Standard assays underestimate the concentration of heparin in neonatal plasma

Heparin is commonly used to treat neonatal thrombosis. Drug monitoring often involves assays that measure the inhibition of added factor Xa or thrombin by the antithrombin III (AT-III) heparin complex. We examined whether the neonatal AT-III deficiency affects heparin recovery in such assays at therapeutic drug concentrations (0.1 to 0.6 U/ml). The chromogenic anti-factor Xa assay (Teien AN, Lie M, Abildgaard U. Thromb Res 1976;8:413-6) and the protamine titration test were performed in eight pooled cord plasma samples and in normal adult plasma. Only 65% to 70% of heparin activity detected in adult plasma was recovered by the assay of Teien et al. In cord plasma; recovery by the protamine test was 80% or less. Heparin recovery in cord plasma was significantly improved by raising the AT-III concentration to normal adult levels in both assays. We conclude that heparin assays underestimate drug levels in neonatal plasma unless the neonatal AT-III deficiency is fully corrected in the test system. The use of standard assays may lead to over-heparinization of newborn infants, thereby placing them at a higher risk of bleeding.     

Involvement of heparin cofactor II in chymotrypsin neutralization and in the pancreatic proteinase—antiproteinase interaction during acute pancreatitis in man

Heparin cofactor II is a proteinase inhibitor which inhibits both chymotrypsin and thrombin, and displays great similarities with antithrombin III, the main inhibitor of thrombin in human plasma. Since acute pancreatitis is known to be associated with modification of the proteinase-antiproteinase equilibrium, we studied heparin cofactor II and antithrombin III as well as other biochemical and haematological parameters in 10 patients experiencing attacks of acute pancreatitis. Heparin cofactor II activity decreased during the first week of illness, while its antigen concentration remained subnormal. This discrepancy between antigen concentration and activity which persisted during the first week of illness was due both to complex formation of heparin cofactor II with its target proteinases and to partial proteolysis of the inhibitor. Heparin cofactor II was shown to form a complex with chymotrypsin in the plasma of such patients. Antithrombin III levels remained unchanged throughout the study, with no discrepancy between its activity and antigen concentration. No modification of haemostasis was shown either, except for a rise in the fibrinogen level during the first days of illness. It is concluded that, unlike antithrombin III, heparin cofactor II is involved in the proteinase-inhibitor equilibrium in patients with acute pancreatitis, and that heparin cofactor II might react as an inhibitor of pancreatic proteinases rather than an inhibitor of thrombin.     

Circulating heparan sulfate proteoglycan anticoagulant from a patient with a plasma cell disorder.

A woman, aged 68, with multiple myeloma (immunoglobulin[Ig]A kappa type) developed an anticoagulant with properties suggestive of heparin. The anticoagulant prolonged the thrombin time but not the reptilase time and was resistant to boiling, proteolytic enzyme digestion, and trichloracetic acid precipitation. The thrombin time was corrected by the addition (in vitro) of protamine sulfate or the addition of purified platelet Factor 4 (PF4) to the plasma. The anticoagulant was isolated by PF4-Sepharose affinity chromatography and analyzed in terms of its molecular weight, uronic acid, and amino acid composition. The proteoglycan isolated had a mol wt of 116,000 and appears to consist of two 38,000 dalton polysaccharide units interconnected by peptide material totaling 39,000 daltons. Electrophoretic analysis of the pronase digested peptidoglycan using the lithium acetate-agarose technique suggested the material was of the heparan sulfate type. The peptidoglycan had about one-tenth the specific activity of commercially available heparin on a weight basis. The isolated proteoglycan was indistinguishable from commercial heparin when analyzed in terms of its ability to act as a cofactor in the antithrombin III inhibition of thrombin.     

高半胱氨酸对血管内皮细胞,血小板聚集和肝素辅助因子活性？…

目的 揭示高半胱氨酸（Ｈｃｙ）致血栓形成的机制。方法 （１）免疫荧光分析务管内皮细胞凝血酶调节蛋白（ＴＭ）抗原分布;（２）发色基质法测定肝素辅助因子Ⅱ（ＨＣⅡ）活性。结果 （１）Ｈｃｙ可下调血管内皮细胞表面ＴＭ的表达,且呈浓度依赖性;（２）Ｈｃｙ对血浆ＡＴ－Ⅲ和ＨＣⅡ的抗凝血酶活性无明显影响,在纯化的ＡＴ－Ⅲ的抗凝血酶作用也无影响。结论 Ｈｃｙ的致血栓效应与其对内皮细胞ＴＭ表达调节有关,且独立于血     

Pharmacologic properties of an unfractionated heparin butyryl derivative with long-lasting effects.

This article reports on the pharmacologic properties of an O-acylated butyryl derivative (C4-UH) of unfractionated heparin (UH). In a purified system, the ability of C4-UH to catalyze the inhibition of thrombin and of factor Xa in the presence of antithrombin III was similar to that of UH. Addition of albumin (10 mg/ml) to the reagents reduced the antithrombin and antifactor Xa catalytic potency of C4-UH 68-fold and 20-fold, respectively, and did not alter those of UH. As judged from the prolongation of the activated partial thromboplastin time and the thrombin clotting time, the anticoagulant activities of C4-UH were two times weaker than those of UH. After calibration against UH, the antifactor Xa-specific and antithrombin-specific activities were two and 6.6 times lower, respectively. After bolus intravenous injection into rabbits, the apparent clearances of C4-UH were reduced 2.4 (antifactor Xa activity) and 3.2 times (antithrombin activity) in comparison with those of UH. This property accounted for the higher plasma concentrations generated during a constant infusion of the same dose. In the Wessler thromboplastin model, the minimum doses providing the maximum antithrombotic effect after bolus injection were equivalent for both compounds when expressed as antifactor Xa units; the duration of the antithrombotic effect of this derivative was prolonged, whereas the hemorrhagic potential was unaffected. This study opens a new concept for heparin derivatives having lower clearances and long-lasting effects. These properties could be linked to nonspecific binding of C4-UH to plasma proteins, thereby reducing the amount of free compound available to interact with antithrombin III.     

Modulation of heparin cofactor II activity by histidine-rich glycoprotein and platelet factor 4.

Heparin cofactor II is a plasma protein that inhibits thrombin rapidly in the presence of either heparin or dermatan sulfate. We have determined the effects of two glycosaminoglycan-binding proteins, i.e., histidine-rich glycoprotein and platelet factor 4, on these reactions. Inhibition of thrombin by heparin cofactor II and heparin was completely prevented by purified histidine-rich glycoprotein at the ratio of 13 micrograms histidine-rich glycoprotein/microgram heparin. In contrast, histidine-rich glycoprotein had no effect on inhibition of thrombin by heparin cofactor II and dermatan sulfate at ratios of less than or equal to 128 micrograms histidine-rich glycoprotein/microgram dermatan sulfate. Removal of 85-90% of the histidine-rich glycoprotein from plasma resulted in a fourfold reduction in the amount of heparin required to prolong the thrombin clotting time from 14 s to greater than 180 s but had no effect on the amount of dermatan sulfate required for similar anti-coagulant activity. In contrast to histidine-rich glycoprotein, purified platelet factor 4 prevented inhibition of thrombin by heparin cofactor II in the presence of either heparin or dermatan sulfate at the ratio of 2 micrograms platelet factor 4/micrograms glycosaminoglycan. Furthermore, the supernatant medium from platelets treated with arachidonic acid to cause secretion of platelet factor 4 prevented inhibition of thrombin by heparin cofactor II in the presence of heparin or dermatan sulfate. We conclude that histidine-rich glycoprotein and platelet factor 4 can regulate the antithrombin activity of heparin cofactor II.     

Characterization of the biological activity of antithrombin III in patients with hepatic cirrhosis

A discrepancy was found in hepatic cirrhosis patients between two forms of biological activities, i.e. progressive antithrombin activity (prog AT) and heparin cofactor activity (heparin AT). A reduced level of heparin AT was obtained in comparison with that of prog AT, despite the fact that both activities correlated well in normal controls. The binding ability of AT III to heparin was observed by crossed immunoelectrophoresis, and showed a reduced second peak of AT III with a faster mobility. These results indicate the possible presence in hepatic cirrhosis of abnormal AT III with a qualitative defect in its binding ability to heparin due to impaired protein synthesis.     

Heparin cofactor II activity in plasma during pregnancy and oral contraceptive use

Inhibition of thrombin by heparin is mediated by at least two plasma proteins, antithrombin III, and heparin cofactor II. The plasma titer of heparin cofactor II was significantly elevated in both pregnant women and users of oral contraceptives.     

Human alpha2-macroglobulin and its antitrypsic and antithrombin activities in serum and plasma.

alpha2-Macroglobulin level, trypsin protein esterase and progressive antithrombin activities were measured in normal and nephrotic sera and plasma. Trypsin protein esterase activity was proportional to the alpha2-macroglobulin concentration in serum and plasma from both normal and nephrotic patients. The results were different, however, with progressive antithrombin activity: in normal plasma, antithrombin III is the main thrombin inhibitor, then alpha2-macroglobulin and alpha1-antitrypsin, whereas in nephrotic syndrome patients, alpha2-macroglobulin is the main thrombin inhibitor.     

Heparin, thrombin and Factor Xa inhibitors

Direct and indirect coagulation inhibitors are used to inhibit the activity of the serine proteases of the coagulation system. Indirect inhibitors act via antithrombin and heparin cofactor II. The main representatives are heparins, lowmolecular-weight heparins, fondaparinux, idraparinux and danaparoid. They bind to antithrombin and potentiate the inactivation of factor Xa and other serine proteases. Direct thrombin inhibitors bind reversibly to thrombin without cofactor. Anticoagulants are determined by global and specific anticoagulant methods. New anticoagulants are developed such as oral factor Xa inhibitors, oral thrombin inhibitors, antibody against activated factor VII, recombinant tissue pathway inhibitor to improve inhibition of blood coagulation or to induce nonanticoagulant effects (e. g. activated protein C in septicaemia). New anticoagulant methods are developed to improve and specify the anticoagulant effect of anticoagulants in thromboembolic diseases.     

Production of thrombi on intact endothelium by use of antiheparin agents in vivo

It had been suggested that antithrombin activity on the surface of intact endothelial cells may play a role in inhibiting platelet adhesion and thrombus formation. The antithrombin activity may be due to thrombomodulin or to activation of antithrombin III by glycosaminoglycans or thrombomodulin, or possibly a combination of these. This inhibitory activity has been shown to be affected by such antiheparin agents as protamine, hexadimethrine bromide (Polybrene; Aldrich Chemical Co., Milwaukee, Wis.) and platelet factor 4, as well as by such enzymes as heparinase and heparitinase. We have used a hamster cheek pouch preparation to observe thrombus formation in vivo in a normal vascular flow, to determine whether the production of thrombi by thrombin can be enhanced by antiheparin agents. After intra-arterial injection or topical application of protamine or hexadimethrine bromide, platelet adhesion and thrombus formation on intact arteriolar endothelium was produced by a dose of thrombin, which when injected alone had no effect. No thrombi were found in venules or capillaries. Injection of heparin before or after the antiheparin agents necessitated a larger dose to enhance the action of thrombin. On electron microscopy the thrombi were found to consist primarily of platelets adherent to an intact endothelium. The possible clinical implications of these observations are discussed.     

Increased concentrations of heparin cofactor II in diabetic patients, and possible effects on thrombin inhibition assay of antithrombin III

We compared concentrations of antithrombin III (AT-III) in plasma, as determined by an immunological method and by a functional thrombin inhibition method, in the presence of heparin in 160 blood samples from Type I diabetics. Although the correlation was highly significant (P less than 0.001) between the results obtained by the two methods, our data demonstrated that results by the thrombin inhibition assay, 121 (SD 15)%, expressed as percentages of the results for a normal plasma pool, were significantly (P less than 0.001) higher than by the immunoreactive method, 104 (SD 15)%, indicating an overestimation of functionally active AT-III. Concentrations of functionally active AT-III determined by a factor Xa inhibition assay, 105 (SD 13)%, were in the same range as immunoreactive AT-III. Addition of IgG antiserum to normal pooled plasma quenched only about 90% of the AT-III activity determined by the thrombin inhibition assay, but all of the AT-III activity determined by a factor Xa inhibition assay. These results demonstrate that the factor Xa inhibition assay is more specific for the determination of AT-III than the thrombin inhibition assay. We suggest that the high concentrations of heparin cofactor II, 117 (SD 17)%, might have caused an overestimation of AT III in this group of patients with diabetes Type I, and should not be overlooked in other clinical situations.     

Inhibitory activities for thrombin and factor Xa of whale heparin: comparative studies on two preparations from different species

Whale intestinal heparin preparations from Balaenoptera physalus L. (Bp) and Balaenoptera borealis L. (Bb) were fractionated by affinity chromatography on a column of antithrombin III (AT)-Sepharose 4B. The yields of high-affinity fractions for AT (HA) from Bp and Bb were 86.8 and 13.3%, respectively, in total. The inhibitory activities for thrombin of Bp and Bb and their HA and those for Factor Xa of the latter were compared in the presence of AT. The results indicated that the inhibitory activities for thrombin of Bp and its HA were higher than those of Bb and its HA, respectively. No noticeable difference in the inhibitory activity for Factor Xa was, however, observed between HA from Bp and Bb. The present observations confirm our previous assumption that the presence of the thrombin-binding regions in addition to the AT-binding regions in heparin molecule are essential for the manifestation of high inhibitory activity for thrombin in the presence of AT.     

A sensitive colorimetric assay for thrombin, prothrombin and antithrombin III in human plasma using a new synthetic substrate

Benzoyl-L-leucyl-L-alanyl-L-arginine-alpha-naphthylester (Bz-Leu-Ala-Arg-NE) was synthesized as a new substrate for use in the assay of thrombin. In the assay alpha-naphthol released by the enzyme reaction was measured colorimetrically. With Bz-Leu-Ala-Arg-NE as substrate, the minimum detectable concentration of human thrombin was 0.0025 U. This assay using Bz-Leu-Ala-Arg-NE is a highly sensitive method for detecting prothrombin, thrombin and antithrombin III in human plasma. Prothrombin could be determined with 0.2 microliter of human plasma using Echis carinatus venom (ECV) as activator. Antithrombin III activity could be determined with 2 microliter of human plasma using human thrombin and heparin as cofactor. A zymogram of human prothrombin was prepared with Bz-Leu-Ala-Arg-NE as substrate. The preparation gave one band (pI 4.9) on polyacrylamide disc gel isoelectrophoresis.     

Assessing heparin neutralization following cardiac surgery: sensitivity of thrombin time-based assays versus protamine titration methods.

Adequate assessment of heparin neutralization following cardiac surgery is critical in reducing the patient's exposure to protamine. Both excessive protamine and residual heparin have been associated with postoperative bleeding and poor patient recovery. The activated clotting time (ACT) is the preferred intraoperative heparin monitor, while both protamine titration (i.e. a protamine-containing ACT) and thrombin time methods have been used to detect circulating residual heparin after protamine administration. Following initial protamine dosing using the protamine response test (PRT), postoperative monitoring was employed in the operating room prior to transport of the patient to intensive care. Two point-of-care assays, the thrombin time (TT) and the protamine dose assay (PDA), were evaluated to determine their relative heparin sensitivity and their usefulness to quantitate protamine dose. The PDA, which is based on the ACT, was shown in laboratory and clinical studies to detect residual heparin above 0.25 units/ml and to quantify additional minidoses of protamine (as low as 25 mg) required to obtain complete heparin neutralization. Differential evaluation of the TT and heparin neutralized thrombin time (HNTT) was shown in laboratory studies to be more sensitive to small amounts of residual heparin than the ACT. Clinical evaluations confirmed that additional protamine is required in approximately 12% of cardiac surgical cases managed using the PRT system. Both the PDA and TT/HNTT provided useful postoperative assessment of the adequacy of heparin neutralization. The TT/HNTT had slightly improved heparin sensitivity even in the presence of significant fibrinogen loss. These point-of-care assays provide the opportunity to optimize heparin and protamine management in the cardiac surgery patient.