Fibrinogen deposition and macrophage-associated fibrin formation in malignant and nonmalignant lymphoid tissue.

Nonmalignant lymphoid tissue and tissue from patients with nodular sclerosis, Hodgkin's disease, and large cell lymphocytic lymphoma was examined by immunohistochemical techniques for the occurrence in situ of components of coagulation and fibrinolysis reaction pathways. Staining for material interpreted as fibrinogen was observed in abundance in both malignant and reactive lymphoid tissue. Fibrin also occurred to a variable extent but focally in all tissues. Components of coagulation pathways, including tissue factor, factor VII, factor X, and factor XIII ("a" subunit), were restricted to tissue macrophages. Double-labeling techniques revealed fibrin in direct apposition to tissue macrophages. We conclude that fibrinogen and fibrin occur in both benign and malignant lymphoid tissue and that the transformation of fibrinogen to fibrin is attributable to macrophage-initiated thrombin formation. We postulate that both systemic and local hypercoagulability associated with these disorders may be attributable to macrophage activation resulting in expression of procoagulant activity.     

Glomerular procoagulant activity in human proliferative glomerulonephritis.

Mechanisms for initiation of glomerular fibrin deposition were studied using renal tissue obtained from two patients with rapidly progressive, crescentic glomerulonephritis. Histological examination showed extensive glomerular monocyte infiltration and fibrin deposition in both patients. Sonicated cell suspensions of isolated glomeruli from these patients contained markedly augmented levels of procoagulant activity (PCA) compared with the levels found in normal glomeruli. This PCA was characterized as tissue factor by its functional dependence on Factors VII and V, independence of Factors VIII and XII, inhibition by concanavalin A and phospholipase C, and association with cell membranes. Its coagulant activity was also inhibited by a specific monoclonal anti-human tissue factor antibody. Tissue factor could be identified in glomeruli from these two patients by indirect immunofluorescence using this antibody. These studies implicate extrinsic pathway activation via tissue factor in intraglomerular deposition of fibrin in these patients. Activated monocytes, known to be a potent source of procoagulant activity and seen in large numbers within glomeruli from these patients, are a likely source of this tissue factor.     

Preferential consumption of coagulation factors I, V, and VIII in rat endotoxemia

To ascertain the time course of prolonged coagulation time and the coagulation factors that were consumed preferentially after injection of Escherichia coli endotoxin (ETX, 3 mg/kg, intravenously) in rats, the activated partial thromboplastin time (aPTT) and prothrombin time (PT) were measured. Using aPTT and PT, the residual levels of the major coagulation factors were quantified by partial replacement of ETX-injected rat plasma with individual factor-deficient human plasma. The residual levels of prekallikrein and high molecular weight (HMW) kininogen were also measured. After ETX injection, aPTT and PT showed gradual increasing prolongation, which was marked at 3-5 h after the injection. The residual level of fibrinogen was markedly reduced between 1 and 3 h after ETX injection and dropped to the determination limit 7 h after the injection. Ratios of the consumed coagulation factors, prekallikrein, and HMW kininogen in rat plasma collected 7 h after intravenous injection of ETX were obtained as follows: prekallikrein (18.0 +/- 4.8%), HMW kininogen (36.2 +/- 1.9 %), factor XII (54.0 +/- 0.7%), factor VIII (86.1 +/- 1.8%), factor VII (35.6 +/- 7.7%), factor V (90.6 +/- 0.8%), and factor I (fibrinogen) (>89.6 +/- 0.0%). Thus, coagulation factor I (fibrinogen) and factors V and VIII (cofactors) were consumed preferentially. The extrinsic coagulation pathway was dominantly activated, whereas the intrinsic coagulation pathway, including plasma kallikrein-kinin system, played less important role in the ETX-induced consumption coagulopathy in rat.     

Coagulation factor activity in platelet concentrates

Coagulation factor activity in platelet concentrates stored under different condtions was investigated. At both 22 C and 4 C, coagulation factors, II, VII, IX, X, XI, and XII and fibrinogen were well maintained up to 72 hours. Factor V activity declined slightly in platelet concentrates stored at 4 C (to 78% at 72 hours), but fell to 47 per cent activity in platelets stored at 22 C. Factor VIII activity declined to approximately 68 per cent of normal activity by 72 hours at both 22 C and 4 C. Agitation did not make a difference in levels of coagulation factors. While the decline in Factor V was clearly more pronounced in platelet concentrates than in platelet-poor plasma from the same units, the decline in Factor VIII was decreased by the presence of platelets. Platelet concentrates are a source of coagulation factor activity which should be considered in a component program.     

The Northwick Park Heart Study: evidence from the laboratory

The Northwick Park Heart Study (NPHS) has shown associations of high plasma fibrinogen and factor VII (FVIIc) levels with the risk of death from coronary heart disease (CHD). The finding for fibrinogen has been confirmed in many other studies. Whereas one further study has found a similar prospective association for FVIIc, several have not. Experimental studies have demonstrated the impact that the coagulation activity of fibrinogen and FVIIc have on the progression and phenotype of atherosclerotic lesions. FVIIc‐driven thrombin generation and fibrin formation within the vessel wall are important determinants of both plaque (in)stability and atherothrombosis. In blood, local concentrations of FVIIc and thrombin may be sufficient to allow interactions between these serine proteases and protease‐activated receptors, to drive cellular inflammatory reactions that further promote these processes. Local fibrinogen concentrations dictate fibrin clot structure and resistance to fibrinolysis. Within the atherosclerotic plaque, coagulation reactions driven by proinflammatory stimuli may initially support lesion stability (as part of wound healing), but, with advanced inflammation, thrombin and fibrin generation diminish because of proteolytic activity contributing to plaque instability. The NPHS findings have proved controversial, but, in the light of current knowledge, a reappraisal of the importance of FVIIc and fibrinogen in atherosclerosis, atherothrombosis and CHD is justified. Hypercoagulability, reflected in turn by thrombin generation capacity, and local concentrations of coagulation proteins, including FVIIc and fibrinogen, is linked to plaque phenotype, and even minute local concentrations of fibrinogen and proteases such as FVIIc may affect thrombin generation capacity.     

Blood coagulation in anhepatic pigs: effects of treatment with the AMC-bioartificial liver

Summary. The function of a newly devised bioartificial liver (AMC‐BAL) based on viable, freshly isolated porcine hepatocytes has been evaluated in anhepatic pigs. The aim of this study was to assess the contribution of BAL treatment on blood coagulation parameters. Pigs were anesthetized and a total hepatectomy was performed (n = 15). The infrahepatic caval vein and the portal vein were connected to the subdiaphragmatic caval vein using a three‐way prosthesis. Animals received standard intensive care (control, n= 5), treatment with an empty BAL (device control, n= 5) or with a cell‐loaded BAL (BAL‐treatment, n= 5) for a period of 24 h starting 24 h after hepatectomy. Coagulation parameters studied concerned prothrombin time (PT), platelet count, the procoagulant system (factors (F)II, FV, FVII, FVIII and fibrinogen), anticoagulant system (AT III), fibrinolytic system (t‐PA, PAI‐1) as well as markers of coagulation factor activation (TAT complexes, prothrombin fragment F1 + 2). FII, FV, FVII, AT III and fibrinogen rapidly decreased after total hepatectomy in pigs in accordance with the anhepatic state of the animals. FVIII levels were not influenced by the hepatectomy. A mild drop in platelet count was seen in all groups. Treatment of anhepatic pigs with the cell‐loaded BAL did not restore PT or clotting factor levels. TAT and F1 + 2 complexes, however, were significantly increased in this group. Levels of t‐PA and PAI‐1 were not influenced by cell‐loaded BAL treatment. Treatment of anhepatic pigs with the AMC‐BAL based on freshly isolated porcine hepatocytes does not result in an improved coagulation state due to extensive consumption of clotting factors. However, increased levels of TAT complexes and prothrombin fragments F1 + 2 during treatment of anhepatic pigs indicate synthesis and direct activation of coagulation factors, leading to thrombin generation. This demonstrates that this bioartificial liver is capable of synthesizing coagulation factors.     

Activation of the contact system of plasma proteolysis in the adult respiratory distress syndrome

Adult respiratory distress syndrome (ARDS) is a complex pulmonary clinicopathologic condition associated with pulmonary endothelial injury and blood coagulation activation. In patients with ARDS from all causes, factor VII levels were significantly reduced. Patients with ARDS caused by sepsis had more evidence of intravascular coagulation and fibrinolysis than did patients with trauma-related ARDS by having significantly (p less than or equal to 0.05) increased prothrombin times, activated partial thromboplastin times, and fibrin degradation products, and decreased antithrombin III concentration. We sought to determine whether the proteins of the contact system of plasma proteolysis (factor XII, prekallikrein, high molecular weight kininogen, and C1 inhibitor) were also activated after acute lung injury. Patients with ARDS caused by either trauma or sepsis had significantly (p less than or equal to 0.01) reduced factor XII levels, high molecular weight kininogen functional activity, prekallikrein activity, and prekallikrein antigen levels compared with controls. In both the sepsis-related and trauma-related ARDS groups, C1 inhibitor activity was significantly reduced but C1 inhibitor antigen levels were significantly elevated from control. These findings showed that the proteins of the contact system were more extensively activated in ARDS than were the proteins that contribute to later reactions in intravascular coagulation and fibrinolysis. Activation of the contact system proteins could be the result of endothelial injury occurring as part of ARDS. Intravascular coagulation and fibrinolysis in patients with ARDS also arise from components independent from contact system activation.     

Importance of factor Xa in determining the procoagulant activity of whole-blood clots.

The binding of thrombin to fibrin is thought to be an important mechanism by which thrombi exhibit procoagulant activity; however, the extent to which other procoagulants are associated with thrombi has not been previously defined. This study was designed to determine whether clotting factors other than thrombin are bound to whole-blood clots and can thereby contribute to significant procoagulant activity. Clots formed in vitro from human blood exhibited minimal thrombin activity when incubated in plasma depleted of vitamin K-dependent factors by barium-citrate adsorption, as indicated by increases in the concentration of fibrinopeptide A (FPA), a marker of fibrin formation, to 72 nM after 30 min. Incubation of clots in barium-absorbed plasma repleted with 0.9 microM human prothrombin under the same conditions resulted in marked increases in the concentration of FPA (> 1,000 nM) and clotting by 30 min. The increases in FPA were attributable to activation of the added prothrombin by clot-associated Factor Xa, judging from concomitant increases in the concentration of prothrombin fragment 1.2. Similar results were obtained with thrombi induced in the axillary arteries of dogs by vascular injury and incubated with plasma in vitro. Activation of prothrombin was inhibited in a dose-dependent manner by tick anticoagulant peptide, a direct inhibitor of Factor Xa, at concentrations of 0.5-5.0 microM. Clot-associated Factor Xa activity was resistant to inhibition by anti-thrombin III, judging from the lack of inhibition of prothrombin activation during incubation of clots in plasma containing heparin pentasaccharide, an anti-thrombin III-mediated inhibitor of Factor Xa. Thus, the activity of Factor Xa appears to be an important determinant of the procoagulant activity of whole-blood clots and arterial thrombi, and is resistant to inhibition by anti-thrombin III-dependent inhibitors.     

The assembly of the factor X-activating complex on activated human platelets

Summary.  Platelet membranes provide procoagulant surfaces for the assembly and expression of the factor X-activating complex and promote the proteolytic activation and assembly of the prothrombinase complex resulting in normal hemostasis. Recent studies from our laboratory and others indicate that platelets possess specific, high-affinity, saturable, receptors for factors XI, XIa, IX, IXa, X, VIII, VIIIa, V, Va and Xa, prothrombin, and thrombin. Studies described in this review support the hypothesis that the factor X-activating complex on the platelet surface consists of three receptors (for the enzyme, factor IXa; the substrate, factor X; and the cofactor, factor VIIIa), the colocalization of which results in a 24 million-fold acceleration of the rate of factor X activation. Whether the procoagulant surface of platelets is defined exclusively by procoagulant phospholipids, or whether specific protein receptors exist for the coagulant factors and proteases, is currently unresolved. The interaction between coagulation proteins and platelets is critical to the maintenance of normal hemostasis and is pathogenetically important in human disease.     

Influence of prothrombin complex concentrates on plasma coagulation in critically ill patients

Objective: To evaluate thrombogenicity of prothrombin complex concentrates (PCCs) in critically ill patients.¶Design: Prospective clinical study.¶Setting: Medical intensive care unit at a university hospital.¶Patients: 16 consecutive patients suffering from acquired deficiencies of coagulation factors and with either overt bleeding from any site or a planned invasive procedure.¶Interventions: 2000 factor IX units of PCCs intravenously.¶Measurements and results: Prothrombin time (PT), activated partial prothrombin time, fibrinogen, platelet count, plasma levels of coagulation factors II, V, VII, VIII, IX, X, antithrombin, protein C, thrombin-antithrombin complex (TAT), prothrombin fragment F₁₊₂, and the fibrin degradation product D-dimer were measured prior to and 1, 3, and 24 h after administration of PCCs. PT as well as coagulation factors II, VII, IX, and X, TAT, and F₁₊₂ showed a significant increase after administration of PCCs. All other parameters remained unchanged.¶Conclusions: Administration of PCCs induces thrombin generation. No evidence for induction of disseminated intravascular coagulation in biochemical terms could be found. When rapid correction of acquired coagulation factor disturbances is warranted, the use of PCCs seems reasonable, but the elevated risk of intravascular thrombus formation should be kept in mind.     

Mechanism of the anticoagulant effect of warfarin as evaluated in rabbits by selective depression of individual procoagulant vitamin K-dependent clotting factors.

We have evaluated the contribution of depression of individual procoagulant vitamin K-dependent clotting factors to the ability of warfarin to protect rabbits against tissue factor-induced coagulation. Mean activities of individual procoagulant factors were determined, in assays with rabbit substrates, for a group of rabbits achieving a protective degree of anticoagulation with warfarin. Values were: factor VII, 12%; factor IX, 7%; factor X, 14%, and prothrombin, 13%. The effect upon tissue factor-induced coagulation of selective immunodepletion of each factor to a comparable level was then evaluated. Immunodepletion of plasma factor X or prothrombin, but not of factor VII or factor IX, protected otherwise normal rabbits against tissue factor-induced coagulation. Next, we determined the effect upon the protection in warfarin-treated rabbits of selectively restoring factor X or prothrombin before infusing tissue factor. When either factor was selectively restored, warfarin's protective effect was abolished. Moreover, selective restoration of prothrombin sensitized warfarin-treated rabbits to coagulation more severe than observed in nontreated control rabbits. One may extrapolate from these data that depression of both factor X and prothrombin are required for warfarin's clinical antithrombotic efficacy and that depression of plasma prothrombin is particularly important.     

Monitoring of hemostatic status in four patients being treated with recombinant factor VIIa

Recombinant Factor VIIa (rVIIa) is a potent hemostatic agent for the management of refractory bleeding in patients with Factor VII deficiency or Factor VIII inhibitors. While the current recommended dose is usually effective, the most appropriate dose remains a subject of debate. Since factor VII levels and shortening of the pro-thrombin time do not appear to correlate with response, an appropriate laboratory marker of clinical response has not been identified. In this article we report changes noted in thrombin generation, platelet function and clot structure in blood from patients treated with rVIIa. Thrombin generation was assessed via a thrombin generation time (TGT) assay using a Hemodyne HAS instrument. Changes in clot structure were assessed as changes in clot elastic modulus in the HAS, changes in maximum amplitude in the TEG and changes in maximum clot firmness in the ROTEG. The cases presented confirmed improvement in thrombin generation with administration of rVIIa. The cases also illustrate that: a) in the factor VII deficient patient, 25% of the 90 microg/kg dose is sufficient to totally correct the defect, b) patients with high level factor VIII inhibitors may require significantly more than the recommended dose of 90 microg/kg, c) thrombin generation may not be completely corrected despite dramatic shortening of the prothrombin time, and d) increasing rVIIa doses does not by itself ensure improved thrombin generation.     

Isolated factor VII deficiency diagnosed after a life-threatening brain haemorrhage

A 65-year-old man was admitted to another hospital with a life-threatening brain haemorrhage, and laboratory examinations on admission revealed prolonged prothrombin time with normal activated partial thromboplastin time. To establish the cause of his abnormal coagulation, he was referred to our clinic. Neither the patient nor his family had any previous history of bleeding symptoms. His liver function was within normal limits but coagulation tests showed increased plasma activities of factors II, VIII, IX, X, with reduced activities of factors V and VII. The activity of factor VII was less than 2% but no inhibitor of factor VII was detected in the plasma. We concluded that the patient had a rare congenital isolated factor VII deficiency although he had not shown earlier bleeding problems, presumably because of compensation for the factor VII deficiency by enhanced activities of components of the extrinsic coagulation pathway, factors II, VIII, IX and X.     

The impact of the intensity of serial automated plasmapheresis and the speed of deep-freezing on the quality of plasma

BACKGROUND: Data are lacking on the impact that the intensity of serial donor plasmapheresis has on the quality of source plasma. A study was conducted to examine the quality of source plasma produced by intensive plasmapheresis and slow deep-freezing and to compare it to source plasma manufactured by moderate plasmapheresis and rapid freezing. STUDY DESIGN AND METHODS: Seventy-five plasma samples from intensive plasmapheresis programs (Group 1) and 75 plasma units from moderate plasmapheresis programs (Group 2) were examined. The plasma had been deep-frozen either slowly at -30 degrees C in walk-in freezers (Group 1) or rapidly within 1 hour to a core temperature below -30 degrees C (Group 2). Determinations were made of the plasma levels of citrate; total protein; albumin; IgG; fibrinogen; factors II, V, VII, VIII, and IX; vWF; antithrombin; protein C; D-dimers; and prothrombin fragments 1+ 2. RESULTS: Plasma units of Group 2 contained substantially greater levels of citrate, IgG, FVIII, and FV than samples of Group 1 (p<0.0001). Plasma levels of total protein, albumin, and fibrinogen also were higher in Group 2 (p<0.0001, p = 0.007, and p = 0.006, respectively). Neither plasmapheresis intensity nor freezing procedure had any influence on the levels of factors II, VII, and IX, antithrombin, or protein C. There was no evidence of substantial coagulation activation in the plasma units of either group. However, higher FVIII clotting activity/chromogenic substrate activity ratios in rapidly frozen plasmas and a significant correlation between these ratios and prothrombin fragment 1+ 2 levels suggest that rapid freezing yields both more native FVIII and greater partial activation of FVIII. CONCLUSION: Source plasma collected from donors undergoing intensified plasmapheresis contains markedly lower levels of IgG than plasma units produced by moderate serial plasmapheresis. The combination of intensified plasmapheresis and slower freezing of source plasma results in substantially lower levels of FV and FVIII than does moderate plasmapheresis with rapid freezing. Prospective studies should establish the optimum conditions required for the safe and economic production of source plasma for fractionation.     

Factor Va - factor Xa interactions: molecular sites involved in enzyme:cofactor assembly

The generation of thrombin by the prothrombinase complex is a key event in coagulation. In this complex, the activated form of coagulation factor V (FVa) serves as an essential cofactor to factor Xa (FXa) in the activation of prothrombin to thrombin. The enzyme FXa is virtually ineffective in the absence of its cofactor. The assembly of FXa with its cofactor FVa on negatively charged phospholipid membranes enhances its catalytic efficiency by several orders of magnitude. The non-activated procofactor factor V (FV) circulates in plasma with a domain organization of A1-A2-B-A3-C1-C2 expressing little procoagulant activity. Upon activation through limited proteolysis by either thrombin or FXa, the B-domain dissociates from FVa. After activation, the procoagulant activity of FVa is greatly enhanced. This report provides insight into the interaction of FV and FXa and the molecular events important in enzyme:cofactor assembly of the FXa:FVa complex. Furthermore, light is shed on the molecular events associated with the activation process, i.e. the release of the B-domain and exposure of binding sites for FXa. The assembly of FVa and FXa was studied using a set of recombinant FV mutants. The interaction between FVa and FXa on phospholipid was investigated with a functional prothrombin activation assay as well as in a novel direct binding assay in the absence of prothrombin. We found that all three thrombin cleavages in FV contribute to increasing the FXa affinity and that the B-domain in intact FV has an inhibitory effect on the FV-FXa interaction, which is important in prohibiting premature coagulation.     

Factor XII activation is essential to sustain the procoagulant effects of particulate matter

See also Mutch NJ. Emerging roles for factor XII in vivo. This issue, pp 1355–8. Summary. Background: Particulate matter (PM) is a key component of ambient air pollution and has been associated with an increased risk of thrombotic events and mortality. The underlying mechanisms remain unclear. Objectives: To study the mechanisms of PM‐driven procoagulant activity in human plasma and to investigate mainly, the coagulation driven by ultrafine particles (UFPs; < 0.1 μm) in genetically modified mice. Methods: Thrombin generation in response to PM of different sizes was assessed in normal human platelet‐poor plasma, as well as in plasmas deficient in the intrinsic pathway proteases factors XII (FXII) or XI (FXI). In addition, UFPs were intratracheally instilled in wild‐type (WT) and FXII‐deficient (FXII^?/?) mice and plasma thrombin generation was analyzed in plasma from treated mice at 4 and 20 h post‐exposure. Results: In normal human plasma, thrombin generation was enhanced in the presence of PM, whereas PM‐driven thrombin formation was completely abolished in FXII‐ and FXI‐deficient plasma. UFPs induced a transient increase in tissue factor (TF)‐driven thrombin formation at 4 h post‐instillation in WT mice compared with saline instillation. Intratracheal instillation of UFPs resulted in a procoagulant response in WT mice plasma at 20 h, whereas it was entirely suppressed in FXII^?/? mice. Conclusions: Overall, the data suggest that PM promotes its early procoagulant actions mostly through the TF‐driven extrinsic pathway of coagulation, whereas PM‐driven long lasting thrombogenic effects are predominantly mediated via formation of activated FXII. Hence, FXII‐driven thrombin formation may be relevant to an enhanced thrombotic susceptibility upon chronic exposure to PM in humans.     

急性脑梗死发作期间组织因子途径改变的观察

目的 :观察急性脑梗死 (ACI)与组织因子途径变化以及与该途径有关的其他凝血因子的关系。方法 :71例经 CT确诊为 ACI患者和 5 0名正常人被纳入研究范围。血浆中组织因子 (TF)和组织因子途径抑制物(TFPI)活性测定采用发色底物法 ;抗原测定用酶联免疫吸附法 (ELISA) ;血浆中 F 促凝活性 (F ∶C)和F 促凝活性 (F ∶C)测定用一期凝固法 ;凝血酶原 (F )的活性测定采用 Ecarin法 ;纤维蛋白原 (Fbg)的活性测定采用凝血酶法 ;抗凝血酶 (AT )的测定用肝素辅因子法。结果 :与正常对照组比较 ,ACI患者血浆中TF活性显著增加 (P<0 .0 5 ) ,TF抗原含量显著增加 (P<0 .0 5 ) ,TFPI的活性降低 (P<0 .0 5 ) ,TFPI抗原含量明显降低 (P<0 .0 5 ) ;血浆 F ∶ C显著增加 (P<0 .0 1) ,血浆 F ∶ C明显下降 (P<0 .0 5 ) ,F 活性显著增加(P<0 .0 1) ,Fbg的活性显著增加 (P<0 .0 1) ;AT 活性显著降低 (P<0 .0 1)。结论 :ACI的发生与组织因子途径的启动有关 ,在 ACI早期患者血液呈高凝状态     

Dose-dependent effects of postmenopausal estrogen and progestin on antithrombin III and factor XII

The frequent use of estrogen and progestin replacement for treatment in postmenopausal women makes assessment of its effect on the coagulation system of interest. Although the amount of estrogen used to achieve the desired therapeutic effect is lower than the lowest doses in oral contraception, the age and medical condition of this population may amplify any hormone-induced risk. The common impression is that postmenopausal replacement therapy does not increase risk for thromboembolic disease, but no large epidemiologic studies of estrogen replacement have addressed that question. In this randomized prospective study, we examined the effects of varying low doses of an estrogen-progestin preparation on the titers of clotting factors in postmenopausal women. The coagulation factors selected for investigation were among those that have been reported to be significantly altered in the plasma samples of high-dose estrogen users. There were no changes in prothrombin time, factor X, fibrinogen, factor VII, or fibrinopeptide A in any of the hormone-treated groups. Mild but significant shortening of the partial thromboplastin time and elevation of factor XII titer were noted in all treatment groups. The titer of antithrombin III was reduced in the group given 20 micrograms ethinyl estradiol, but not in the groups given 5 or 10 micrograms. The clinical significance of these changes is difficult to determine in postmenopausal women receiving sex hormone replacement. However, we have not noted any thromboembolic episodes in our volunteers after a 1-year follow-up period.(ABSTRACT TRUNCATED AT 250 WORDS)     

Immunoradiometric measurement of the factor VIII procoagulant antigen.

A fluid-phase immunoradiometric assay has been developed which identifies an antigen on the Factor VIII (antihemophilic factor) procoagulant protein. This sensitive and quantitative assay is not influenced by levels of Favor VIII-related antigen (von Willebrand factor) or other plasma proteins. There is a close correlation of procoagulant activity and immunologically detectable protein in normal and von Willebrand's disease plasmas. In contrast, several different patterns have been identified in hemophilic plasmas. Neither procoagulant activity nor procoagulant antigen is detectable in plasmas from patients with severe classic hemophilia. Patients with mild and moderate hemophilia have either comparable plasma concentrations of procoagulant activity and procoagulant antigen or relatively greater levels of immunologically detectable protein.     

Activated human protein C prevents thrombin-induced thromboembolism in mice. Evidence that activated protein c reduces intravascular fibrin accumulation through the inhibition of additional thrombin generation.

Activated protein C (APC) is a potent physiologic anticoagulant with profibrinolytic properties, and has been shown to prevent thrombosis in different experimental models. We investigated the effect of human APC on thrombin-induced thromboembolism in mice, a model of acute intravascular fibrin deposition leading to death within minutes. APC given intravenously (i.v.) as a bolus 2 min before thrombin challenge (1,250 U/kg) reduced mortality in a dose-dependent manner despite the lack of thrombin inhibitor activity. Significant inhibition of thrombin-induced death was observed at the dose of 0.05 mg/kg, and maximal protection was obtained with 2 mg/kg (> 85% reduction in mortality rate). Histology of lung tissue revealed that APC treatment (2 mg/kg) reduced significantly vascular occlusion rate (from 89.2 to 46.6%, P < 0.01). The protective effect of APC was due to the inhibition of endogenous thrombin formation as indicated by the fact that (a) the injection of human thrombin caused a marked decrease in the coagulation factors of the intrinsic and common pathways (but not of Factor VII), suggesting the activation of blood clotting via the contact system; (b) APC pretreatment reduced markedly prothrombin consumption; (c) the lethal effect of thrombin was almost abolished when the animals were made deficient in vitamin K-dependent factors by warfarin treatment, and could be restored only by doubling the dose of thrombin, indicating that the generation of endogenous thrombin contributes significantly to death; and (d) APC failed to protect warfarin-treated animals, in which mortality is entirely due to injected thrombin, even after protein S supplementation. Other results suggest that APC protects from thrombin-induced thromboembolism by rendering the formed fibrin more susceptible to plasmin degradation rather than by reducing fibrin formation: in thrombin-treated mice, fibrinogen consumption was not inhibited by APC; and inhibition of endogenous fibrinolysis by epsilon-aminocaproic or tranexamic acid resulted in a significant reduction of the protective effect of APC. Since APC did not enhance plasma fibrinolytic activity, as assessed by the measurement of plasminogen activator (PA) or PA inhibitor (PAI) activities, PAI-1 antigen, or 125I-fibrin degrading activity, we speculate that the inhibition of additional (endogenous) thrombin formation by APC interrupts thrombin-dependent mechanisms that make fibrin clots more resistant to lysis, so that the intravascular deposited fibrin can be removed more rapidly by the endogenous fibrinolytic system.