Fibrinolysis and fibrinogenolysis in liver disease

Patients with liver disease frequently have hemostatic abnormalities which include accelerated fibrinolysis. In order to assess the fibrinolytic state in liver disease, plasma levels of fibrinogenolysis products (FgDP), fibrinolysis products (FbDP), and fibrinogenolysis plus fibrinolysis products (TDP) were measured with newly developed enzyme-linked immunosorbent assays based on monoclonal antibodies in 36 patients with liver disease (six patients with acute hepatitis, seven with chronic hepatitis, ten with liver cirrhosis, 11 with hepatocellular carcinoma, and two with intrahepatic cholestasis). As compared with healthy subjects, mean plasma levels of FbDP (1,083 +/- SD 1,254 vs. 236 +/- 100 ng/ml, P = 0.005) and TDP (1,773 +/- 1,814 vs. 669 +/- 212 ng/ml, P = 0.001) were significantly elevated in patients with liver disease, whereas FgDP was normal (389 +/- 202 vs. 396 +/- 132 ng/ml, P = 0.87). Plasma FbDP correlated very well with TDP (r = 0.986, P less than 0.00001) in liver disease. In addition, FbDP and TDP but not FgDP correlated with plasma concentrations of thrombin-antithrombin III complex. When plotted by the disease categories, the magnitude of elevations of FbDP and TDP was the most prominent in acute hepatitis followed by hepatocellular carcinoma. These findings indicate that activation of fibrinolysis occurs following thrombin generation, but increased primary fibrinogenolysis is rare in liver disease.     

Fibrinogen and fibrin degradation products in patients undergoing open-heart surgery

We have determined fibrinogen and fibrin degradation products (FgDP and FbDP respectively) by an ELISA method using specific monoclonal antibodies in 100 patients undergoing cardiopulmonary bypass (CPB) for valvular heart disease and in 60 patients undergoing aorto-coronary bypass surgery. Blood samples were taken pre-operatively and on post-operative days 1 and 5. Post-operative evolution was similar in both patient groups, with a significant increase in FgDP on post-operative days 1 and 5 with respect to baseline value (P less than 0.01). FbDP were also significantly higher on post-operative days 1 and 5 (P less than 0.001), especially the day after surgery in patients with valvular disease as compared with coronary patients (P less than 0.01). Our results indicate that fibrinolysis is more important than fibrinogenolysis after open-heart surgery, which may have pathophysiological implications.     

Hemostatic imbalance in active and quiescent ulcerative colitis

OBJECTIVE: In healthy conditions, factors inducing or inhibiting coagulation and factors inducing or inhibiting fibrinolysis are in balance. In ulcerative colitis, hypercoagulation is presumed, which may explain part of the clinical features of this disease. Therapy strategies affecting hemostasis may improve the course of ulcerative colitis. This study was conducted to evaluate the balance of coagulation and fibrinolysis in the course of treatment of active ulcerative colitis. METHODS: Patients with active ulcerative colitis were studied by serial determination of markers of the coagulation cascade (thrombin-antithrombin complexes and fibrin degradation products [FbDP]) and the fibrinolytic cascade (fibrinogen degradation products [FgDP]). Parameters of inflammation were also measured (C-reactive protein [CRP], erythrocyte sedimentation rate [ESR], albumin, platelet count, and fibrinogen). Disease activity was assessed by endoscopic and histopathological scores. Follow-up measurement was performed in the course of treatment at the third or fourth month after baseline. Measurements were compared with healthy controls. RESULTS: Thirty-three patients and 22 healthy controls were included. During active ulcerative colitis, inflammatory parameters (CRP, ESR, platelet count) and hemostatic parameters (thrombin-antithrombin complexes, fibrinogen, FgDP, and FbDP) were elevated in comparison with healthy controls. Albumin was decreased and antithrombin-III remained unchanged. During treatment, disease activity decreased significantly endoscopically and histopathologically (p < 0.001). CRP, ESR, platelet count, and fibrinogen also decreased significantly. The hemostatic balance, expressed as the ratio between the plasmin-dependent generation of FgDP and coagulation-dependent generation of FbDP, increased from 0.69 to 1.12 during treatment, mainly because of a decrease of FbDP. In healthy controls, this ratio was CONCLUSIONS: The coagulation and fibrinolytic cascades were activated in active ulcerative colitis, with a hemostatic imbalance in favor of coagulation. This hypercoagulability persisted in 20% (7/33) of patients with ulcerative colitis in remission. The decrease of FbDP and the increase in the FgDP/FbDP ratio during reconvalescence of ulcerative colitis showed that the coagulation cascade was more activated than the fibrinolytic cascade in active disease.     

Thrombin activation and increased fibrinolysis in patients with chronic liver disease

The respective roles of intravascular coagulation (DIC) and fibrinolysis were assessed in severe chronic liver disease by measuring thrombin-antithrombin (TAT) complexes, tissue-type plasminogen activator antigen (tPA Ag) and fibrinogen and fibrin degradation products (FgDP and FbDP respectively) in 66 patients with liver disease caused by cirrhosis (n = 34) or chronic hepatitis (n = 32) as compared to findings in a control group (n = 30). There was a significant increase of TAT complexes (P less than 0.01), tPA Ag (P less than 0.002), FDP and FbDP (P less than 0.001) in patients as compared to controls. FbDP increase was more evident in patients with cirrhosis than in those with hepatitis (P less than 0.01). Significant correlations between these parameters with some liver function tests were also demonstrated. Thus, in patients with severe liver disease, an increased thrombin activity, as demonstrated by high TAT levels; followed by hyperfibrinolysis suggest that a low grade DIC may occur.     

Plasmin generation and fibrin(ogen)olysis following desmopressin infusion.

Desmopressin acetate (DDAVP) is known to stimulate the release of tissue-type plasminogen activator (t-PA) from endothelial cells, but it is unclear whether the increased t-PA actually elicits the plasmin generation and fibrin(ogen)olysis in the circulating blood. We measured plasma levels of plasmin-alpha 2-plasmin inhibitor complex, fibrinogen degradation products (FgDP) and fibrin degradation products (FbDP) following desmopressin infusion in 19 patients with bleeding disorders or thrombophilia. Administration of desmopressin (0.3-0.4 microgram/kg) produced a 4.0-fold increase in plasmin-alpha 2-plasmin inhibitor complex at 30 min, whereas neither FgDP nor FbDP was elevated significantly. These findings indicate that desmopressin infusion provokes the generation of plasmin in vivo, but most of the plasmin generated is complexed to alpha 2-plasmin inhibitor and does not degradate fibrin or fibrinogen.     

Fibrin and fibrinogen degradation products with an intact D-domain C- terminal gamma chain inhibit an early step in accessory cell-dependent lymphocyte mitogenesis

Although the low molecular weight degradation products of fibrinogen (FgDP) and fibrin (FbDP) are known to inhibit lymphocyte blastogenesis, the effect of purified macro-molecular FgDP and FbDP (molecular weight, 90 to 200 Kd) is unclear. We have examined the effect of these latter FgDP and FbDP and find that products that contain the D domain inhibit lymphocyte proliferation in response to T-cell mitogens, allogeneic mononuclear leukocytes, and anti-CD3 in vitro. Plasmic digestion of D1 in the absence of calcium with removal of the C-terminal end of the gamma chain or disruption of the gamma-gamma C-terminal cross-link site of D-dimer (DD) by puffadder venom (PAV-D) abrogates their inhibitory potential. Prior incubation of monocytes with DD or D1 inhibits subsequent lymphocyte transformation. Binding studies with radiolabeled DD and PAV-D confirm that monocytes interact only with DD. This specific binding may be competitively inhibited by monoclonal antibodies to CD11b/CD18 or by peptide analogues of the C-terminal gamma chain of fibrinogen that mimic the adhesion recognition site of integrins. We postulate that DD and D1 bind to CD11b/CD18 on adherent monocytes and modulate lymphocyte activation. These products are typically present in the plasma of patients with disseminated intravascular coagulation with sepsis and could therefore influence inflammatory processes in vivo.     

The effect of alcohol ingestion on the exercise-induced changes in fibrin and fibrinogen degradation products in man.

The present study examined the influence of ingesting a moderate dose of alcohol on plasminogen activator activity (t-PA), plasma fibrinogen (Fb), total degradation products (TDP) and the degradation products of fibrin (FbDP) and fibrinogen (FgDP) at rest and in response to exercise. Eleven male subjects performed two separate experimental trials at an exercise intensity corresponding to 70% maximal oxygen consumption for 35 min. Prior to trials, subjects were either given 0.5 g/kg alcohol in orange-flavoured drink or an equal volume of non-caloric non-alcoholic drink 45 min before exercise. Comparison of the levels of t-PA, Fb, TDP, FbDP, and FgDP at rest, before and 45 min after the ingestion of alcohol revealed no significant differences between alcohol and control experiments. Exercise resulted in a marked increase in t-PA, TDP, and FgDP, with no appreciable change in FbDP. Although plasma fibrinogen level showed significant decrease post-exercise when subjects ingested alcohol, this difference was small and its biological significance is questionable. While t-PA level increased similarly in response to exercise during alcohol and control trials, a significantly higher response of TDP was found during the control trial compared with alcohol trial. It was concluded that exercise with and without alcohol ingestion is followed by a substantial increase in t-PA, which coincided with an increase in TDP. The increase in TDP was mainly due to an increase in FgDP, but not to FbDP. These findings support the hypothesis that a significant fibrinogenolysis occurs in response to exercise, and moderate intoxication with alcohol prior to exercise reduced this response.     

The fibrinolytic response to ancrod therapy: characterization of fibrinogen and fibrin degradation products

Ancrod is a purified coagulant venom which renders blood incoagulable by cleaving fibrinopeptide A (FPA) from fibrinogen, but the mechanism involved in the clearance of fibrin from the circulation is unknown. To investigate the fibrinolytic response to ancrod, and to increase understanding of clearance mechanisms, six patients with peripheral vascular disease causing claudication were infused with ancrod at 2 u/kg over 6 h followed by 2 u/kg at 12 h intervals for 38 h. Venous blood samples were taken at time 0, 3, 6, 25 and 49 h for assay of fibrinogen (Fbg), fibrinopeptide A (FPA), total fibrin(ogen) degradation products (TDP), fibrin degradation products (FbDP), fibrinogen degradation products (FgDP), cross-linked fibrin degradation products (XL-FDP), tissue plasminogen activator (tPA), urinary type plasminogen activator (u-PA), plasminogen, α₂ antiplasmin (α₂AP) and plasminogen activator inhibitor-1 (PAI-1). Fibrinogen (median and range) was 2.3 (1.4–3.90) g/l at time 0 and thereafter was undetectable. FPA rose from 2.5 (1.8–3.6) to 600 and 188 pmol/l at 3 h and 6 h and remained elevated. TDP, FbDP and FgDP increased greatly following ancrod while there was no evidence of XL-FDP. The surprising increase in FgDP during defibrination suggests either that fibrinogen is digested following its incorporation into circulating fibrin protofibrils or that some of the fibrin subunits in the photofibril retain one of the two fibrinopeptide A's. tPA and uPA remained unchanged. Plasminogen fell from 125 (100–155)% to 79 (40–118)% at 49 h and α₂AP fell from 91 (75–107)% to 24 (10–35)% at 49 h. The level of PAI-1 was depressed during defibrination, with the exception of the 6 h data. The results demonstrate that ancrod removes FPA from fibrinogen to produce non-cross-linked (soluble) fibrin. This is cleared from the circulation without evidence of an increase in the circulating activities of the plasminogen activators, tPA or UK, but with evidence of plasminogen activation and consumption.     

Evaluation of clinical usefulness of a rapid quantitative measurement of D dimer (cross-linked fibrin degradation products)]

In order to evaluate precisely the fibrinolytic states in clinical disorders, plasma levels of D dimer (cross-linked fibrin degradation products) were measured by a newly developed, rapid quantitative method based on the latex photometric immunoassay in patients with hematological malignancies, diabetes mellitus, collagen disease, liver disease, thrombotic disease and disseminated intravascular coagulation (DIC). Plasma levels of D dimer were elevated in a variety of diseases, especially in DIC. Patients with hematological malignancies, liver disease and thrombotic disease also had relatively high levels of D dimer. On the whole, D dimer values were positively correlated with plasmin-alpha 2-plasmin inhibitor complex and thrombin-antithrombin III complex. In addition, plasma D dimer was measured during fibrinolytic therapy with urokinase or tissue-type plasminogen activator; its elevation was detected in some patients. These findings indicate that accelerated fibrinolysis is frequently observed in a variety of diseases, and that a rapid quantitative measurement of D dimer would be valuable for the precise assessment of fibrinolysis in these disease states.     

Fibrin degradation products generation and fibrinopeptide A release in normal plasma incubated with thrombolytic agents: proposed mechanisms.

Clinical data have shown that the evaluation of fibrin degradation products (FbDP) does not reflect the efficiency of thrombolytic therapy in vivo. In this study, we found that the addition of plasminogen activators to normal plasma resulted in generation of FbDP and release of fibrinopeptide A (FpA) as shown by ELISA and HPLC. This FpA release was concomitant with fibrinogen degradation, and was not inhibited by thrombin inhibition or by prothrombin depletion in plasma. Thus, the increase in FpA did not result from coagulation activation and may result from the plasmin-induced release of FpA from fibrinogen degradation product E1. The generation of cross-linked FbDP after tPA addition occurred in normal plasma as well as in factor-XIII-deficient plasma and quickly reached a plateau. It was not inhibited by hirudin. Therefore FbDP in these plasmas probably derived from the plasmin degradation of cellular transglutaminase cross-linked fibrin/fibrinogen derivatives present in plasma.     

Progress of fibrinolysis during tumor necrosis factor infusions in humans. Concomitant increase in tissue-type plasminogen activator, plasminogen activator inhibitor type-1, and fibrin(ogen) degradation products.

Several investigators have reported that tumor necrosis factor (TNF) can alter the production of plasminogen activator type-1 (PAI-1) and plasminogen activators (PAs) by endothelial cells in vitro. We have examined the in vivo effects of recombinant human TNF administration on fibrinolysis as assessed by parameters in plasma during a 24-hour period of continuous TNF infusion to 17 cancer patients with active disease. The plasma levels of PAI activity increased sevenfold after 3 and 24 hours of TNF infusion. This was the result of an increase of PAI-1 antigen; PAI-2 antigen was not detectable. Plasma concentrations of tissue-type PA (t-PA) antigen increased twofold to fivefold after 3 and 24 hours of TNF infusion, whereas urokinase-type PA antigen levels in plasma remained unaltered. After 3 hours of TNF infusion the plasma levels of alpha 2-antiplasmin were slightly decreased, 5% on average, suggesting that fibrinolysis continued. After 24 hours of TNF infusion a highly significant increase in fibrin- plus fibrinogen-degradation products, and separately of fibrin degradation products and fibrinogen degradation products, was found. This indicates that fibrinolysis persisted, at least partly, in the presence of high levels of PAI activity. Whereas PAI-1 production increased, t-PA production by human endothelial cells in vitro remains unaltered or even decreases on TNF addition. It has been shown previously that TNF infusion in our patients results in thrombin and fibrin generation. Therefore, it is possible that thrombin, not TNF, is the actual stimulus for t-PA production in our patients. We speculate that fibrin is formed during TNF infusions and that plasmin is generated by t-PA action immediately on the initial formation of (soluble) fibrin molecules. Such a process may explain the generation of degradation products of both fibrin and fibrinogen during infusion of TNF in patients.     

Prevention of in vitro fibrinogenolysis during laboratory monitoring of thrombolytic therapy with streptokinase or APSAC.

In the present study, we systematically investigated aprotinin, epsilon-aminocaproic acid (EACA) and tranexamic acid as inhibitors of fibrinogen breakdown and of the generation of fibrinogen degradation products (FgDP). The experimental setting very closely imitated the conditions in practice when collecting blood from patients receiving thrombolytic therapy with streptokinase or APSAC. The minimal concentration of aprotinin required to completely inhibit fibrinogen breakdown and FgDP generation was 200 KIU/ml blood. This was sufficient even at the highest concentrations of streptokinase and APSAC expected to occur in patients (300 U/ml and 46 nM, respectively). However, 200 KIU/ml aprotinin heavily interfered in the determinations of plasminogen and alpha 2-antiplasmin. Relatively low concentrations of EACA (200 mM) and tranexamic acid (35 mM) were sufficient to prevent FgDP generation, but they interfered in the Clauss assay of fibrinogen. A non-interfering concentration of EACA (7 mM) allowed the inhibition of lower concentrations of APSAC (20 nM) and streptokinase. We conclude that at least 200 KIU aprotinin per ml blood is necessary to effectively inhibit in vitro fibrinogenolysis under circumstances likely to be met in clinical practice during thrombolytic therapy.     

Monoclonal antibodies to crosslinked fibrin degradation products (XL-FDP) II. EVALUATION IN A VARIETY OF CLINICAL CONDITIONS

Plasmas from patients with a wide variety of thrombotic and presumed prethrombotic conditions were examined for high molecular weight crosslinked fibrin degradation products (known as X-oligomers) using a two-site enzyme-linked immunospecific assay (ELISA). This assay employed a catcher-tag principle using two monoclonal antibodies (mabs) directed towards different epitopes on the complex X-oligomer fraction. In general, thrombotic events (pulmonary embolism, PE, myocardial infarction, MI, peripheral vascular disease, PVD, and disseminated intravascular coagulation, DIC) were accompanied by elevated levels of X-oligomers in the plasma. During pregnancy the value of X-oligomer assays was demonstrated to be a clear-cut marker for pre-eclampsia. Patients following a variety of forms of surgery present with heterogeneous plasma levels of X-oligomers and this may merely reflect the formation and lysis of the fibrin formed during and after surgery. The possible value of this ELISA procedure in monitoring thrombolytic therapy is discussed with a critical analysis of the data presented herein. While the assay of X-oligomer was demonstrated to be a valuable marker of fibrinolysis in plasma, more extensive data are required in order to assess whether such an assay is of diagnostic value in thrombosis-related conditions.     

Intravenous magnesium does not influence the activity of the coagulation cascade.

Experimental arterial thrombus formation is reduced during intravenous magnesium infusion. It is well documented that magnesium reduces platelet reactivity, but the antithrombotic effect could also originate from anticoagulant properties or increased fibrinolysis. We therefore evaluated the effect of intravenous magnesium on prothrombin fragment 1 + 2 (F1 + 2), thrombin-antithrombin III complex (TAT) concentrations, and fibrin degradation products (FbDP) in a randomized, cross-over study in 14 healthy volunteers. Citrated blood samples were collected at 0, 30, and 180 min. An additional in vitro study on magnesium's effect on the activity of different coagulation factors was carried out. A transient increase was seen in F1 + 2 and TAT after 30 min but without any significant difference between the placebo and magnesium period. FbDP did not change significantly between the two treatments. Increasing concentrations of magnesium dose-dependently decreased binding of activated factor X to activated factor VII (FVIIa), but the decrease was slight and probably without any significance for coagulation at the concentrations tested. No effect was observed on the activity of FVIIa or activated factor VIII. In conclusion, no significant differences were observed on markers of coagulation or fibrinolytic activity during intravenous magnesium infusion. These results indicate that the observed antithrombotic effect of magnesium is more likely to arise from the previously observed platelet inhibition.     

Ascites fluid as a possible origin for hyperfibrinolysis in advanced liver disease

OBJECTIVES: Advanced liver disease is associated with both exaggerated fibrinolysis and with ascites. This study was undertaken to determine whether fibrinolytic activity exists in the ascites fluid of patients with liver disease and to see whether such activity is associated with evidence of plasma fibrinolysis. METHODS: Both the ascites fluid and plasma from 15 patients with cirrhotic ascites (group A) were evaluated for markers of fibrinolysis: fragment D-dimer, plasminogen, fibrinogen, and fibrin split products. In addition, the euglobulin lysis time, a test highly specific for fibrinolysis, was evaluated in the ascites fluid samples. As a control group, the plasma from 15 cirrhotic patients without ascites (group B) was evaluated for markers of fibrinolysis. RESULTS: In group A, elevated fragment D-dimer and fibrin split products were uniformly found in ascites fluid in concentrations that would be considered pathologically elevated if in plasma. Ascites fluid was also depleted, compared with plasma, of both plasminogen and fibrinogen. These results, along with the short euglobulin lysis time in 83% of the patients, suggest that increased fibrinolytic activity is present in ascites fluid. In 93% of these patients, plasma D-dimer was elevated. The mean plasma plasminogen was also low in these patients. In group B, only 33% of patients had elevated plasma D-dimer. CONCLUSIONS: Ascites fluid has fibrinolytic activity. Because ascites fluid reenters the systemic circulation via the thoracic duct, via a natural peritoneovenous shunt, ascites fluid warrants serious consideration as a pathological fluid that contributes to the systemic fibrinolytic state found in the majority of our patients with ascites.     

Plasma crosslinked fibrin polymers: quantitation based on tissue plasminogen activator conversion to D-dimer and measurement in normal and patients with acute thrombotic disorders.

Plasma crosslinked fibrin polymers (XLFP) are formed as a result of in vivo hemostatic activation and are elevated in thrombotic disease. We have investigated the plasmic degradation of plasma XLFP in vitro to provide information regarding the pattern of crosslinking and the composition of degradation products. Plasma XLFP were identified by sodium dodecyl sulfate (SDS)-agarose electrophoresis and Western blotting and quantitated by gel scanning. D-dimer was measured by enzyme-linked immunosorbent assay and the results were verified by SDS-polyacrylamide gel electrophoresis and Western blotting of the digests. Complete degradation of XLFP occurred only after supplementation of plasma with plasminogen (5 U/mL) and incubation with recombinant tissue plasminogen activator (rt-PA), indicating that the normal plasma plasminogen concentration limits plasmic degradation in vitro. Gel electrophoresis showed that the principal terminal degradation products of XLDP were fragments D, DD, and E, indicating that crosslinking occurred primarily through gamma chain dimers. After adding a low concentration of thrombin to plasma in vitro, XLFP increased progressively before clotting, and the concentration correlated with the increase in the D-dimer concentration after degradation (r = .98). Plasma XLFP and D-dimer concentrations in plasmic digests were significantly elevated in patients with stroke (150 +/- 83 micrograms/mL and 88 +/- 32 micrograms/mL), myocardial infarction (217 +/- 110 micrograms/mL and 84 +/- 30 micrograms/mL), and venous thrombosis (187 +/- 80 micrograms/mL and 86 +/- 19 micrograms/mL) compared with normals (28 +/- 12 micrograms/mL and 25 +/- 7 micrograms/mL). There was a strong correlation between the plasma concentration of XLFP and the D-dimer immunoreactivity of plasma after plasmic degradation (r = .87). The results indicate that XLFP in plasma are crosslinked primarily through gamma chains and degrade to fragment DD with plasminogen activation. Also, the immunoreactivity of in vitro plasmic digests of plasma reflects the concentration of XLFP and may provide a useful indirect measure of in vivo hemostatic activation in patients with thrombotic disease.     

The fibrinolytic system in children

The fibrinolytic system comprises a cascade of serine proteinase activation events that culminate in the generation of plasmin and, subsequently, degradation of fibrin. Although all components of the fibrinolytic system are present at birth, plasma concentrations of key components in infants and children differ physiologically from those in adults. Until the age of 6 months, plasma concentrations of plasminogen and alpha (2)-antiplasmin are decreased to 50% and 80% of adult values, respectively, while plasma concentrations of tissue-type plasminogen activator are decreased and plasminogen activator inhibitor-1 are increased throughout childhood. In addition, the rate of plasmin generation in newborns and the overall fibrinolytic activity during childhood are decreased compared with adults. Strong evidence suggests that age-dependent differences in the fibrinolytic system critically influence the effectiveness and safety of thrombolytic agents. In addition, recent studies suggest that impaired fibrinolysis may play an important role in the pathogenesis of several diseases such as venous and arterial diseases and vasculitis, which are associated with both endothelial cell damage and increased thrombotic risk. This article will discuss the ontogenic features of the fibrinolytic system in children and summarize the available information on the effect of developmental fibrinolysis on both the course of specific disease states and the response to thrombolytic therapy in children.     

Increased circulating levels of thrombin-activatable fibrinolysis inhibitor in lung cancer patients

Impairment of fibrinolytic function plays an important role in the mechanism of thrombotic disorders in cancer patients. This study assessed the circulating level of thrombin-activatable fibrinolysis inhibitor in patients with lung cancer and its expression by several lung cancer cell lines. The plasma concentrations of thrombin-activatable fibrinolysis inhibitor were significantly increased in lung cancer patients compared to healthy subjects. The concentration of thrombin-activatable fibrinolysis inhibitor was particularly higher in patients with small cell carcinoma compared to those with adenocarcinoma or squamous cell carcinoma, and in cancer patients that responded to chemotherapy compared to non-responders. In vitro studies showed more expression of thrombin-activatable fibrinolysis inhibitor in small cell carcinoma than in adenocarcinoma cell lines and more expression in lung cancer cell lines sensitive to anti-cancer agents than in resistant cell lines. This study suggests that thrombin-activatable fibrinolysis inhibitor, in part secreted from lung cancer cells, may play a role in the pathogenesis of thrombotic disorders in lung cancer patients.     

Factors relevant to stimulatory activity of fibrin degradation products in vivo.

Extracts of atherosclerotic lesions contain a range of fibrin degradation products (FbDP), similar fragments have been detected in extracts from human and mouse healing skin wounds and from the invasive edge of human breast carcinomas, which are all proliferating systems. We have previously shown that FbDP stimulate cell proliferation including angiogenesis in the chick chorioallantoic membrane (CAM), and sought to characterize further the active components. Fibrin prepared from platelet-rich and platelet-free plasma, and purified Kabi fibrinogen, was treated with plasmin, and the digests were all active. FbDP from platelet-rich plasma clots also increased vascularity of the CAM. Prior removal of fibronectin from plasma by gelatin-Sepharose affinity chromatography did not affect proliferative activity. Current studies showed that long digests of fibrin, in which the only major band detectable is fibrin fragment E are active. Commercial fibrinogen derived fragment E, itself inactive on the CAM, becomes active after exposure to thrombin cleavage of fibrinopeptides. Recently fragment E has been isolated from shorter digests, by simple filtration through a Millipore 0.2 microns centrifuge filter. It displayed similar activity to the fragment E obtained from long digests. Fragment E in plaque extracts has been shown consistently to lack fibrinopeptide A indicating it is of fibrin origin.     

Validity of enzyme-linked immunosorbent assays of cross-linked fibrin degradation products as a measure of clot lysis

Concentrations of cross-linked fibrin degradation products (XL-FDPs) in plasma, measured by enzyme-linked immunosorbent assays (ELISAs) based on monoclonal antibodies (MAbs) raised against fragment D-dimer of cross-linked fibrin, increase when patients are given fibrinolytic agents. Whether XL-FDPs derive from circulating cross-linked fibrin polymers in plasma, compared with clot-associated fibrin, has been questioned because increases in XL-FDP are measured by some assays after fibrinolysis in vitro in the absence of clot. We characterized the source of XL-FDP immunoreactivity in plasma of patients with acute myocardial infarction and ischemic heart disease and the response to plasminogen activation in vitro induced by pharmacological concentrations of tissue-type plasminogen activator (t-PA) and streptokinase. XL-FDPs were measured with two different ELISA. One, "pan-specific tag ELISA," was based on a capture MAb specific for XL-FDP and a tag MAb that recognizes an epitope exposed in the fragment D region of both fibrin and fibrinogen, whereas the other, "fibrin-specific tag ELISA," was based on a capture and tag MAbs both specific for fibrin. After plasminogen activation was induced in vitro in plasma from patients with myocardial infarction, increased concentrations of XL-FDP were measured by the pan-specific tag ELISA; however, concentrations measured with the fibrin-specific tag ELISA were not increased. To determine the mechanism for this discrepancy, plasma was subjected to immunoadsorption with a MAb specific for fragment D-dimer before and after in vitro activation of the fibrinolytic system and immunoblotting with a fragment D-dimer-specific MAb and with the pan-specific MAb. Increased concentrations of fragment D-dimer, as well as fibrinogen fragment D at high concentrations, were recognized by the specific MAb. Non-cross-linked fragments were also shown by immunoblotting with the pan-specific MAb to coprecipitate with cross-linked fibrin fragments. This suggested the increased concentrations of XL-FDP measured by the pan-specific tag ELISA after in vitro activation of the fibrinolytic system were due to detection of non-cross-linked fibrinogen fragments. However, fibrin fragment D-dimer concentrations were found to increase in plasma of 15 patients given t-PA for acute myocardial infarction. We conclude fragment D-dimer in plasma of patients during thrombolysis does not originate from circulating soluble cross-linked fibrin but rather is a marker of solid-phase fibrin dissolution, which may be quantitated with assays based on capture and tag antibodies that do not detect fibrinogen or its degradation products.