Plasma Antithrombin Research Articles

Localization and characterization of antithrombin in human kidneys.

Antithrombin is a serine protease inhibitor that is critical in maintaining a thromboresistant vasculature. The association between low serum antithrombin concentration and renal disease suggests that the kidney plays a role in the conservation of plasma antithrombin. We used immunohistochemical techniques to determine the spatial distribution, heparin binding characteristics, and intracellular and intercellular localization of antithrombin in biopsy specimens (n = 53) of human donor kidneys obtained at the time of transplantation. In the renal cortex, double antibody techniques demonstrated the presence of intracellular antithrombin in proximal tubule epithelial cells. The reactivity was granular and was co-localized with vesicle-like structures. Distal and collecting tubules did not demonstrate intraepithelial antithrombin reactivity. No tubule structures in the medullary region demonstrated intracellular antithrombin, but all these structures showed intense basement membrane antithrombin reactivity. Double antibody techniques also demonstrated that the heparin binding domain of intraepithelial antithrombin was occupied. Semiquantitative scores for intraepithelial antithrombin were significantly decreased in renal biopsy specimens obtained 30 min after anastomosis compared with biopsies from the same organ obtained before anastomosis. These findings suggest that antithrombin, probably in association with heparin or heparan sulfate, is internalized by renal proximal epithelial cells. Although the ultimate fate of intraepithelial antithrombin is not known, this may represent a mechanism by which the kidney helps to maintain plasma antithrombin concentrations.

Cardiac bypass haemostasis: putting blood through the mill.

Cardiac bypass haemostasis: putting blood through the mill.

Uptake of heparin cofactor II and antithrombin into the aorta wall after a deendothelializing injury in vivo: Comparison with the behaviors of prothrombin and fibrinogen

The initiation of a denuding injury to the vascular endothelium rapidly leads to a deposition of platelets and fibrin at the site of injury. We have measured previously the responses of rabbit fibrinogen, prothrombin, and antithrombin to a deendothelializing balloon-catheter injury to the rabbit aorta in vivo. In this study, rabbit iodine 125–labeled HCII and iodine 125–labeled AT were coinjected intravenously into anesthetized rabbits 5 minutes before deendothelialization of the thoracic aorta. The rabbit was exsanguinated at 5 to 60 minutes after injury, the aorta was excised, and the accumulation of each radiolabeled protein in each layer of aorta wall was determined relative to the concentration of the respective native protein in circulating blood at exsanguination. The maximum flux rates into the aorta wall (ie, platelet layer and intima-media) in the first minute after injury were calculated from the uptake data; approximately 2.8 molecules of AT accumulated for each HCII molecule. By comparison with previous measurements, the maximum flux rate of AT was similar to that of prothrombin. Further, the molar ratio of accumulated prothrombin/AT + HCII) in the aorta wall was 0.75. Detergent extracts of the injured aorta intima-media contained unreacted HCII and HCII complexes; the uninjured aorta contained only unreacted HCII. By contrast, high molecular weight AT complexes and unreacted AT were extracted from the uninjured, and in greater quantity from the injured, aorta wall. We conclude that, of the plasma antithrombins, AT accumulated more rapidly than HCII in vivo and appeared to be the more active inhibitor at the site of vascular injury. HCII may play a relatively minor role as an antithrombin and possibly only after injury. (J Lab Clin Med 1999;133:81-7)

A Case of Pulmonary Thromboembolism due to Congenital Antithrombin III Deficiency

We report a case of congenital and familial antithrombin III deficiency developing massive pulmonary thromboembolism. A 44-year-old man was admitted to our hospital because of sudden chest pain and severe dyspnea. Five years ago, he was operated due to a mesenteric vein thrombosis of unknown cause. On admission, radioisotopic venogram showed deep vein thrombosis and lung scintigram showed multiple segmental perfusion defects. His plasma antithrombin III level was 10.5 mg/dL which was less than 50% of normal and those of a son and two daughters were also decreased. After treatment with tissue plasminogen activator, heparin and coumadin, his symptom and lung scintigram were significantly improved. As far as we reviewed, there were very rare reports with congenital antithrombin III deficiency presenting as pulmonary thromboembolism in Korea.

Antithrombins Wibble and Wobble (T85M/K): Archetypal Conformational Diseases With In Vivo Latent-Transition, Thrombosis, and Heparin Activation

The inherent variability of conformational diseases is demonstrated by two families with different mutations of the same conserved aminoacid in antithrombin. Threonine 85 underlies the opening of the main β-sheet of the molecule and its replacement, by the polar lysine, in antithrombin Wobble, resulted in a plasma deficiency of antithrombin with an uncharacteristically severe onset of thrombosis at 10 years of age, whereas the replacement of the same residue by a nonpolar methionine, antithrombin Wibble, gave near-normal levels of plasma antithrombin and more typical adult thromboembolic disease. Isolated antithrombin Wibble had a decreased thermal stability (Tm 56.2, normal 57.6°C) but was fully stabilized by the heparin pentasaccharide (Tm 71.8, normal 71.0°C), indicating that the prime abnormality is a laxity in the transition of the main sheet of the molecule from the 5- to 6-stranded form, as was confirmed by the ready conversion of antithrombin Wibble to the 6-stranded latent form on incubation. That this transition can occur in vivo was shown by the finding of nearly 10% of the proband's plasma antithrombin in the latent form and also, surprisingly, of small but definitive amounts of latent antithrombin in normal plasma. The latent transition will be predictably accelerated not only by gross mutations, as with antithrombin Wobble, to give severe episodic thrombosis, but also by milder mutations, as with antithrombin Wibble, to trigger thrombosis in the presence of other predisposing factors, including the conformational stress imposed by the raised body temperatures of fevers. Both antithrombin variants had an exceptional (25-fold) increase in heparin affinity and this, together with an increased inhibitory activity against factor Xa, provides evidence of the direct linkage of A-sheet opening to the conformational basis of heparin binding and activation.© 1998 by The American Society of Hematology.

Antithrombins Wibble and Wobble (T85M/K): Archetypal Conformational Diseases With In Vivo Latent-Transition, Thrombosis, and Heparin Activation

The inherent variability of conformational diseases is demonstrated by two families with different mutations of the same conserved aminoacid in antithrombin. Threonine 85 underlies the opening of the main β-sheet of the molecule and its replacement, by the polar lysine, in antithrombin Wobble, resulted in a plasma deficiency of antithrombin with an uncharacteristically severe onset of thrombosis at 10 years of age, whereas the replacement of the same residue by a nonpolar methionine, antithrombin Wibble, gave near-normal levels of plasma antithrombin and more typical adult thromboembolic disease. Isolated antithrombin Wibble had a decreased thermal stability (Tm 56.2, normal 57.6°C) but was fully stabilized by the heparin pentasaccharide (Tm 71.8, normal 71.0°C), indicating that the prime abnormality is a laxity in the transition of the main sheet of the molecule from the 5- to 6-stranded form, as was confirmed by the ready conversion of antithrombin Wibble to the 6-stranded latent form on incubation. That this transition can occur in vivo was shown by the finding of nearly 10% of the proband’s plasma antithrombin in the latent form and also, surprisingly, of small but definitive amounts of latent antithrombin in normal plasma. The latent transition will be predictably accelerated not only by gross mutations, as with antithrombin Wobble, to give severe episodic thrombosis, but also by milder mutations, as with antithrombin Wibble, to trigger thrombosis in the presence of other predisposing factors, including the conformational stress imposed by the raised body temperatures of fevers. Both antithrombin variants had an exceptional (25-fold) increase in heparin affinity and this, together with an increased inhibitory activity against factor Xa, provides evidence of the direct linkage of A-sheet opening to the conformational basis of heparin binding and activation.© 1998 by The American Society of Hematology.

The Effect of Danaparoid Sodium (Danaparoid) on Endotoxin-induced Experimental Disseminated Intravascular Coagulation (DIC) in Rats

Danaparoid sodium (danaparoid) is a low molecular weight heparinoid with anticoagulation properties, which mainly consists of heparan sulfate. Compared with heparin sodium (heparin), danaparoid has a much higher anti-Xa/anti-thrombin ratio. We compared the effect of danaparoid on endotoxin-induced experimental disseminated intravascular coagulation (DIC) in rats with heparin. A bolus injection of endotoxin (10 mg/kg) induced gradual decreases in the platelet count, and the plasma fibrinogen, antithrombin III (AT-III) and heparin cofactor II levels, as well as an increase in the fibrinogen/fibrin degradation products level from 1 to 6 hours after the injection, indicating that both coagulation and fibrinolysis were activated. The intravenous administration of danaparoid or heparin 3 hours after the endotoxin injection inhibited the endotoxin-induced decreases in the platelet count and plasma fibrinogen level and also inhibited the endotoxin-induced increase in glomerular fibrin deposition in the kidney. Differences between danaparoid and heparin were observed in their effects on the plasma AT-III level and clotting time. Danaparoid significantly inhibited both the decrease in the plasma AT-III level and the prolongation of the prothrombin time induced by endotoxin, where as heparin showed no effect on those responses. Moreover, danaparoid enhanced the prolongation of the activated partial thromboplast in time induced by endotoxin to a lesser degree than heparin. These findings suggest that the effects of danaparoid on the endotoxin-induced decrease of the plasma AT-III level and the prolongation of the clotting time are more advantageous than those of heparin. The results may have been due to a higher anti-Xa/anti-thrombin ratio of danaparoid than that of heparin, indicating that danaparoid may be useful in the treatment of DIC.

Antithrombin III, Protein C and Protein S Plasma Levels in Patients with Behçet's Disease

The association between natural inhibitors of coagulation and thrombophilia was investigated in 35 patients with Behcet's disease. Antithrombin III and protein C levels were measured using synthetic chromogenic substrate methods, and protein S levels by quantitative enzyme-linked immunosorbent assay. There were no significant differences between patients and controls in plasma antithrombin III, protein C and free protein S concentrations. We conclude that there was no evidence of a primary coagulation inhibitor abnormality in patients with Behçet's disease.

Poor outcome in disseminated intravascular coagulation or thrombotic thrombocytopenic purpura patients with severe vascular endothelial cell injuries.

Various hemostatic and vascular endothelial cell markers were measured in patients with disseminated intravascular coagulation (DIC), non-DIC, or thrombotic thrombocytopenic purpura (TTP) and in healthy volunteers to examine the relationships between the hemostatic abnormalities or vascular endothelial cell injuries and the patients' outcomes. Although the plasma levels of soluble fibrin monomer, thrombin-antithrombin complex, plasmin-plasmin inhibitor complex, and D-dimer were significantly increased in the DIC patients, there were no significant differences in these markers between the DIC patients who survived and those who died, suggesting that these markers might not be directly related to the patient outcome. The plasma thrombomodulin (TM) levels in the DIC and TTP patients were significantly higher than those in the healthy volunteers, and the plasma TM levels in the patients who died were significantly higher than those in the patients who survived. These findings showed that the TM level reflected the outcome, and that the outcome of the diseases underlying DIC and TTP might depend on vascular endothelial cell injuries. The plasma protein C and antithrombin activities were markedly reduced in the DIC, non-DIC, and TTP patients who died compared to those who survived. These findings suggest that reduced plasma antithrombin and protein C activities are useful markers of systemic vascular endothelial injuries. Although the plasma tissue factor (TF) levels were significantly increased in the DIC patients, there was no significant difference in the plasma TF levels between the DIC patients who died and those who survived. In conclusion, we found that the outcome of the diseases underlying DIC and TTP is related to vascular endothelial cells, and that plasma TM, antithrombin, and protein C are useful markers for systemic vascular endothelial cell injury.

Poor outcome in disseminated intravascular coagulation or thrombotic thrombocytopenic purpura patients with severe vascular endothelial cell injuries

Various hemostatic and vascular endothelial cell markers were measured in patients with disseminated intravascular coagulation (DIC), non-DIC, or thrombotic thrombocytopenic purpura (TTP) and in healthy volunteers to examine the relationships between the hemostatic abnormalities or vascular endothelial cell injuries and the patients' outcomes. Although the plasma levels of soluble fibrin monomer, thrombin-antithrombin complex, plasmin-plasmin inhibitor complex, and D-dimer were significantly increased in the DIC patients, there were no significant differences in these markers between the DIC patients who survived and those who died, suggesting that these markers might not be directly related to the patient outcome. The plasma thrombomodulin (TM) levels in the DIC and TTP patients were significantly higher than those in the healthy volunteers, and the plasma TM levels in the patients who died were significantly higher than those in the patients who survived. These findings showed that the TM level reflected the outcome, and that the outcome of the diseases underlying DIC and TTP might depend on vascular endothelial cell injuries. The plasma protein C and antithrombin activities were markedly reduced in the DIC, non-DIC, and TTP patients who died compared to those who survived. These findings suggest that reduced plasma antithrombin and protein C activities are useful markers of systemic vascular endothelial injuries. Although the plasma tissue factor (TF) levels were significantly increased in the DIC patients, there was no significant difference in the plasma TF levels between the DIC patients who died and those who survived. In conclusion, we found that the outcome of the diseases underlying DIC and TTP is related to vascular endothelial cells, and that plasma TM, antithrombin, and protein C are useful markers for systemic vascular endothelial cell injury. Am. J. Hematol. 58:189–194, 1998. © 1998 Wiley-Liss, Inc.

Hemostatic molecular markers before onset of disseminated intravascular coagulation in leukemic patients.

The changes in various hemostatic parameters were examined within a period from 7 days before the onset of disseminated intravascular coagulation (DIC) in 114 patients (i.e. in their pre-DIC state). The changes in prothrombin time (PT) ratio and fibrinogen levels were not significant before the onset of DIC. Plasma fibrinogen and fibrin degradation products (FDP) levels before the onset of DIC were high, but these changes were already significant in 110 non-DIC patients examined. Plasma thrombin-antithrombin complex (TAT), plasmin-plasmin inhibitor complex (PPIC), D-dimer and soluble fibrin monomer (SFM) levels were high before the onset of DIC. In the 110 leukemic DIC patients, the plasma SFM levels were significantly increased 5 days before, the plasma TAT levels were significantly increased 3 days before, and the D-dimer levels were significantly increased 1 day before the onset of DIC. The plasma tissue factor and plasminogen activator inhibitor-I levels were not significantly changed before the onset of DIC. The PT ratio, fibrinogen, FDP, platelet count, antithrombin, D-dimer, and PPIC levels at 7 days before the onset of DIC were not significantly different from the corresponding values in the non-DIC group, although the hemostatic molecular markers SFM, D-dimer, and TAT are useful for the diagnosis of pre-DIC. Plasma thrombomodulin levels were significantly increased in these patients who died, and plasma antithrombin and protein C activities markedly reduced in the patients who died. The outcome of the diseases underlying DIC is related to vascular endothelial cell injuries.

Effect of estrogen‐progestin hormonal replacement therapy on plasma antithrombin III of postmenopausal women

This study was performed to evaluate antithrombin III levels in postmenopausal women receiving hormonal replacement treatment. It is a prospective randomized study concerning 19 postmenopausal patients, aged 40 to 65 years, who received either continuous daily oral equine conjugated estrogen 0.625 mg (group A, N=10) or daily transdermal 17beta-estradiol 50 microg (group B, N=9). Medroxyprogesterone acetate (5 mg/day, 14 days monthly) was given to all patients. Blood samples were obtained before and after 3, 6, 9 and 12 months of treatment. Coagulation tests included Antithrombin III (functional method), prothrombin time, partial activated prothrombin time, thrombin time, factor V, fibrinogen, platelet count and euglobulin lysis time. Friedman analysis of variance and Mann-Whitney test were used for statistical analysis. Antithrombin III level was reduced (p<0.05) in group A but not in group B, although it remained within normal range. No changes were detected in the other coagulation tests. These data suggest that oral conjugated estrogen replacement reduces functional ATIII, whereas transdermal estradiol replacement therapy does not modify it.

Effect of estrogen-progestin hormonal replacement therapy on plasma antithrombin III of postmenopausal women

Effect of estrogen-progestin hormonal replacement therapy on plasma antithrombin III of postmenopausal women

Local delivery of antithrombin inhibits platelet deposition after balloon injury in a porcine coronary model.

Thrombin activation and initiation of the coagulation process can lead to thrombotic complications after coronary angioplasty. A therapeutic approach may be effectively to inhibit thrombin activity at the site of the vessel wall injury. The aim of the present study was to investigate the short-term effects of local delivery of antithrombin on coronary vessel wall injury in pigs. A coronary balloon angioplasty was performed in the left anterior descending artery. Twenty-four hours before the procedure, platelets were marked with Indium 111 and infused into the pig. Before catheterisation 100 U/kg of heparin was administered. Eight pigs received 250 U (5 ml) of antithrombin and, as a control, eight received 10 mg of albumin (5 ml) delivered using a local drug delivery balloon catheter. Microscopic preparation of the injured part of the vessel was performed, and the amount of radioactivity was measured, giving the number of platelets per cm2. Plasma antithrombin level was measured before and after local delivery. The amount of antithrombin in the vessel wall was measured using a semi-quantitative method involving anti-antithrombin antibodies. The number of platelets per cm2 was significantly lower in the antithrombin group (mean 2.3 x 10(6)) than in the control group (6.3 x 10(6), P= 0.02 ). No macroscopic thrombus was detected in the antithrombin group, whereas three out of eight pigs in the control group had visible thrombus formation (NS). There was an increase in the plasma concentration of antithrombin after local delivery. In the antithrombin group, antithrombin was detected in the intima, the lumen part of the media and in the vasa vasorum. Antithrombin can be administered and deposited locally in the coronary vessel wall thereby reducing platelet deposition after balloon injury.

Percutaneous 17 beta-estradiol replacement therapy in hypertensive postmenopausal women.

The present study evaluated the short-term effects of percutaneous 17 beta-estradiol on blood pressure, metabolic profile and hormonal levels in postmenopausal women with systemic arterial hypertension. After a wash-out period of 15 days, 10 hypertensive patients were treated with guanabenz acetate to control blood pressure, followed by 17 beta-estradiol in the form of hydroalcoholic gel administered for 21 of 28 days of each cycle, for 3 cycles. Patients were evaluated before, during and 2 months after estrogen administration. Systolic and diastolic blood pressure or heart rate did not present any significant change in any patient when compared to those periods with the antihypertensive drug only (pretreatment period and 60 days after estrogen therapy was discontinued). Plasma biological markers of hepatic estrogenic action (plasma renin activity, antithrombin III, triglycerides, total cholesterol and lipoproteins) also remained unchanged during the study. Hormone treatment was effective, as indicated by the relief of menopausal symptoms, a decrease in FSH levels (73.48 +/- 27.21 to 35.09 +/- 20.44 IU/l, P < 0.05), and an increase in estradiol levels (15.06 +/- 8.76 to 78.7 +/- 44.6 pg/ml, P < 0.05). There was no effect on LH (18.0 +/- 9.5 to 14.05 +/- 8.28 IU/l). Hormone levels returned to previous values after estrogen treatment was discontinued. The data indicate that short-term percutaneous 17 beta-estradiol replacement therapy, at the dose used, seems to be a safe hormone therapy for hypertensive menopausal women. Nevertheless, a controlled, prospective, randomized clinical assay with a larger number of subjects is needed to definitely establish both the beneficial and harmful effects of hormone replacement therapy in hypertensive women.

Acquired deficiency of antithrombin in association with a hypercoagulable state and impaired function of liver and/or kidney in preeclampsia.

To determine whether decreases in plasma antithrombin (AT) level, as seen in non-gestational acquired AT deficiency, result from a hypercoagulable state and/or liver/kidney damage, AT activity was measured in 24 uncomplicated and 30 preeclamptic women. The fifth percentile of AT levels in the normal pregnancies was used as a cut-off value to subdivide the preeclamptic patients into two groups. Markers of activated coagulation, i.e, levels of thrombin-antithrombin complex (TAT), fibrin D-dimer, soluble fibrin, von Willebrand factor (vWF) and platelet counts, were determined. Indicators of hepatic or renal function, i.e. concentrations of alanine aminotransferase (ALT), aspartate aminotransferase (AST), creatinine, urinary albumin (U-albumin) and serum albumin (S-albumin), were assayed. AT levels were lower in those with preeclampsia than in the normal pregnancy group (P < 0.01). In the group with AT levels less than the cut-off point, levels of fibrin D-dimer (P < 0.05), soluble fibrin (P < 0.05), vWF (P < 0.05), ALT (P < 0.05), AST (P < 0.05), creatinine (P < 0.01) and U-albumin (P < 0.01) were increased, whereas platelet counts (P < 0.05) and S-albumin (P < 0.05) were decreased. All patients with ALT levels > 0.46 mu kat/1, AST > 0.58 mu kat/1, S-albumin < 23 g/1 and/or U-albumin > 4.9 g/24 h had AT levels < or = cut off. AT levels correlated with vWF (rs = - 0.73, P < 0.01) and creatinine (Rs = -0.70, P < 0.01). It is suggested that in preeclampsia, acquired AT deficiency is secondary to a hypercoagulable state, and/or associated with impaired hepatic and/or renal function.

Effect of Individual Carbohydrate Chains of Recombinant Antithrombin on Heparin Affinity and on the Generation of Glycoforms Differing in Heparin Affinity

Two major glycoforms of recombinant antithrombin which differ 10-fold in their affinity for the effector glycosaminoglycan, heparin, were previously shown to be expressed in BHK or CHO mammalian cell lines (I. Björk,et al.,1992,Biochem. J.286, 793–800; B. Fanet al.,1993,J. Biol. Chem.268, 17588–17596). To determine the source of the glycosylation heterogeneity responsible for these different heparin-affinity forms, each of the four Asn residue sites of glycosylation, residues 96, 135, 155, and 192, was mutated to Gln to block glycosylation at these sites. Heparin-agarose chromatography of the four antithrombin variants revealed that Gln 96, Gln 135, and Gln 192 variants still displayed the two functional heparin-affinity forms previously observed with the wild-type inhibitor, whereas the Gln 155 variant showed only a single functional high heparin affinity form. These results demonstrate that heterogeneous glycosylation of Asn 155 of recombinant antithrombin is responsible for generating the low heparin affinity glycoform. Analysis of heparin binding to the higher heparin affinity forms of the four variants showed that all exhibited increased heparin affinities of two- to sevenfold compared to wild-type higher heparin affinity form or to plasma antithrombin, with the Gln 135 variant showing the largest effect on this affinity. The extent of heparin-affinity enhancement was correlated with the distance of the mutated glycosylation site to the putative heparin-binding site in the X-ray structure of antithrombin. All variants displayed normal kinetics of thrombin inhibition in the absence and presence of saturating heparin, indicating that the carbohydrate chains solely affected heparin binding and not heparin-activation or proteinase-binding functions. These results indicate that all carbohydrate chains of recombinant antithrombin adversely affect heparin-binding affinity to an extent that correlates with their relative proximity to the putative heparin-binding site in antithrombin.

The role of platelets in the early and late vascular responses initiated by mechanical vascular injury

Summary Endothelium is the nonthrombogenic interface separating highly-reactive elements circulating in blood from highly-thrombogenic constituents comprising subendothelial vascular and adventitial connective tissues. Mechanical vascular disruption initiates complex hemostatic interactions among platelets, coagulation, and fibrinolysis that are regulated by endothelium. Platelets attach to bared subendothelial matrix adhesive proteins via an array of receptors. Exposed membrane-bound tissue factor (TF) forms a tight complex with Factor VII/VIIa that catalytically activates Factors IX and Factor X, giving rise to the explosive production of thrombin via the assembly of the enzyme-cofactor prothrombinase complex on activated phospholipid surfaces. Thrombin activates platelets, cleaves fibrinogen and Factor XIII, producing fibrin-stabilized hemostatic plugs. Activated platelets express fibrinogen receptors by altering membrane aIIbβ3, leading to platelet cohesion via interplatelet fibrinogen linkages. Platelet recruitment is mediated by at least three independent, interrelated agonists: thrombin (physiologically the most important), adenosine phosphate (ADP), and thromboxane A2. Endothelial mechanisms limit the extension of hemostatic plug formation and inhibit thrombotic complications, including: (1) rapid binding of thrombin to thrombomodulin on intact endothelium, leading to the production of activated protein C and its subsequent inactivation of activated factor V, a critical cofactor in thrombin production; (2) thrombin-regulated endothelial generation of antiaggregatory prostacyclin and nitric oxide; (3) thrombin-enhanced endothelial secretion of tissue plasminogen activator; (4) thrombin inactivation by endothelial heparin sulfate-facilitated complexing with plasma antithrombin; (5) inactivation of platelet-secreted ADP by endothelial ecto-ADPase. Genetic and acquired abnormalities involving these protective mechanisms predispose patients to hemostatic and thrombotic disorders.

Antithrombin Acts as a Negative Acute Phase Protein as Established with Studies on HepG2 Cells and in Baboons

Patients with sepsis or after major surgery have decreased plasma levels of the anticoagulant protein antithrombin. In such patients elevated levels of interleukin-6 (IL-6) are present and this interleukin is known to induce positive and negative acute phase responses. To investigate the possibility that antithrombin acts as a negative acute phase response-protein we performed studies on the human hepatoma cell line HepG2 in vitro and baboons in vivo. HepG2 cells were treated with recombinant human IL-6, IL-1beta, or combinations of the latter two, and tested for production of antithrombin, fibrinogen and prealbumin (transthyretin). This treatment resulted in a dose dependent increase in fibrinogen concentration (with a maximum effect of 2.8-2.9-fold) and a dose dependent decrease in prealbumin (with a maximum effect of 0.6-0.7-fold) and antithrombin concentrations (with a maximum effect of 0.6-0.8-fold). Simultaneous treatment of the HepG2 cells with IL-6 (1,000 pg/ml or 2,500 pg/ml) and IL-1beta (25 pg/ml), provided more extensively decreased prealbumin (0.8 and 0.6-fold, respectively) and antithrombin concentration (0.7 and 0.6-fold, respectively) compared to the single interleukin treatment at these concentrations. Baboons treated with 2 microg IL-6 x kg body-weight(-1) x day(-1) showed increased plasma CRP levels (59-fold, p <0.05) and decreased prealbumin (0.9-fold, p <0.05) and antithrombin (0.8-fold, p <0.05) plasma levels, without evidence for coagulation activation. Our results indicate that antithrombin acts as a negative acute phase protein, which may contribute to the decreased antithrombin plasma levels observed after major surgery or in sepsis.

Fibrinogen-like substance and thrombin-like enzyme in seminal plasma: coagulation system of human semen.

This investigation was conducted to examine the presence of fibrinogen-like substance and thrombin-like enzyme in human semen (human seminal plasma) after liquefaction. The human seminal plasma contained small amounts of respective substances which are absorbed on anti-fibrinogen and anti-thrombin III affinity columns, respectively. The thrombin-like enzyme with Gly-Pro-Arg-pNA amidolytic activity was inhibited by human seminal plasma trypsin-like enzyme inhibitor (HSP-TI) and antithrombin III. The fibrinogen-like substance reacted with the thrombin-like enzyme, forming a fibrin-like substance. It would appear that certain aspects of the coagulation process in human semen constitute the same process as the final stage of the blood coagulation system.