Thrombus formation at a ruptured arterial plaque forming a stenotic luminal outgrowth may trigger acute vascular occlusion. The pathobiology of the complex mechanisms and their interrelationships during this event is not fully understood. However, it is generally believed that components of the subendothelial plaque and the disturbed blood flow conditions caused by the stenosis are of pivotal importance for the thrombus formation. The shape and the severity of the occluding stenosis have profound impacts on the physical aspects of the blood flow. The wall shear rate at the apex may reach extremely high values >> 40,000 s-1). Zones of recirculation proximal and distal to the stenosis as well as turbulent blood flow further downstream from the lesion may occur. The significance of these rheological factors for the mural thrombus formation at various locations at the stenosis is not well established. The extracellular matrix and the cellular components of the subendothelial plaque exposed to the blood stream following plaque rupture are potent inducers of thrombus formation. Matrix components such as collagen fibrils, fibronectin and von Willebrand factor interact specifically with platelet membrane glycoprotein receptors, Ia-IIa, Ib-IX, and IIB-IIa, enabling platelet-subendothelium adhesion, particularly at high wall shear rates. The coagulation cascade is concomitantly activated by the binding of FVII from plasma to tissue factor expressed on the membranes of macrophages and smooth muscle cells. Thrombin, which is subsequently generated at the rupture, enhances the platelet recruitment, and thus the thrombus growth. The thrombin formation simultaneously enhances the deposition of fibrin in and around the platelet masses. Further augmentation of these processes is mediated by the formation of prothrombinase complexes on the phospholipid-rich surfaces of the activated platelets, which increases the local concentration of thrombin at the evolving thrombus. Thrombus fragmentation may represent a serious event, since these fragments may embolize and occlude smaller vessels, producing ischaemia. It is apparent that acute arterial thrombotic occlusion triggered by a ruptured stenotic plaque involves both physical and chemical mechanisms. The inter-relationship and the significance of these complex mechanisms are not well understood. Efficient modalities for therapeutic intervention in thromboembolism at such lesions may not be available before the physical and chemical events are better identified and characterized.

Acute promyelocytic leukemia (APL) cells express different types of procoagulant activity (PCA), including tissue factor (TF), and cancer procoagulant (CP). The aim of this study was to investigate whether the NB4 cell line, the first ever isolated human APL line, with the typical t(15;17) chromosomal balance translocation, possess CP as well as the cells freshly isolated from APL patients. Secondly, since the NB4 line is maturation inducible by all-trans-retinoic acid (ATRA), we wanted to verify whether CP, if present, was affected by ATRA treatment. The NB4 cells were able to shorten the recalcification assay of normal human plasma (total PCA). To distinguish CP in the assay for clotting activity, two criteria were used, the independence from factor VII to trigger blood coagulation and the sensitivity to cysteine proteinase inhibitors. Forty-seven per cent of total PCA of cell extracts was found to be FVII-independent PCA. A similar proportion of FVII-independent activity (42%) was detected in the cell serum-free supernatants. The activity was significantly decreased by cysteine proteinase inhibitors, including HgCl2, lodoacetic acid and Z-Ala-AlaCHN2. Additionally CP was directly identified and quantified by an immunocapture enzyme assay. The mean +/- SD concentration of CP detected by this assay in the NB4 cells, before any treatment, was 1.89 +/- 0.5 microgram/mg protein. Treatment of NB4 cells with 10(-6) M ATRA for 5 days significantly decreased the expression of CP, which became virtually undetectable by the clotting assay, and was 64% less than the untreated control by the immunocapture enzyme assay. This study provides the first evidence that the human promyelocytic cell line NB4 possess CP. The expression of this procoagulant is modulated by ATRA.

We have previously shown that addition of adsorbed plasma to a mixture of TP and FVII reduces the amount of subsequently added FX that can be activated. We now report that this inhibitory effect of plasma is increased dramatically by first incubating TP and FVII with a minor amount of FX. This results in a progressive loss in the ability of TP-FVIIa to convert subsequently added FX to FXa. An assay system quantitating the inhibitory effect of 1 microliter of heated, citrated plasma is described. Optimal inhibition is obtained when the initial amount of FX added is about 0.00125 U, which is 1/16 of the amount used as reagent to measure remaining TP-FVIIa. FVII and FX must be removed from test plasma prior to assay. The inhibitory activity is reduced more by BaSO4 adsorption than by heating plasma to 56 degrees C for 15 minutes. Gel filtration of plasma separates three distinct fractions with inhibitory activity.

Factor X (FX) has high structure homology with other proteins of blood coagulation such as factor IX (FIX) and factor VII (FVII). These proteins present at their amino-terminal extremity a gamma-carboxyglutamic acid containing domain (Gla domain), followed by two epidermal growth factor-like (EGF1 and EGF2) domains, an activation peptide, and a serine protease domain. After vascular damage, the tissue factor-FVIIa (TF-FVIIa) complex activates both FX and FIX. FXa interacts stoichiometrically with tissue pathway inhibitor (TFPI), regulating TF-FVIIa activity by forming the TF-FVIIa-TFPI-FXa quaternary complex. Conversely, FXa boosts coagulation by its association with its cofactor, factor Va (FVa). To investigate the contribution of the Gla and EGF1 domains of FX in these complexes, FX chimeras were produced in which FIX Gla and EGF1 domains substituted the corresponding domains of FX. The affinity of the two chimeras, FX/FIX(Gla) and FX/FIX(EGF1), for the TF-FVIIa complex was markedly reduced compared with that of wild-type-FX (wt-FX) independently of the presence of phospholipids. Furthermore, the association rate constants of preformed FX/FIX(Gla)-TFPI and FX/FIX(EGF1)-TFPI complexes with TF-FVIIa were, respectively, 10- and 5-fold slower than that of wt-FXa-TFPI complex. Finally, the apparent affinity of FVa was 2-fold higher for the chimeras than for wt-FX in the presence of phospholipids and equal in their absence. These data demonstrate that FX Gla and EGF1 domains contain residues, which interact with TF-FVIIa exosites contributing to the formation of the TF-FVIIa-FX and TF-FVIIa-TFPI-FXa complexes. On the opposite, FXa Gla and EGF1 domains are not directly involved in FVa binding.

Activation of factor (F)VII by tissue factor may represent a critical event during plaque rupture in acute coronary syndromes. Patients with combined hyperlipemia are at high risk for developing coronary heart disease and their tendency to thrombosis may be accelerated during postprandial hyperlipemia. In the present double-blind, placebo-controlled parallel study, 42 patients with combined hyperlipemia and serum triglycerides between 2.0 and 15.0 mmol L(-1 )and serum cholesterol >5.3 mmol L-1 at the end of a 3-month dietary run-in period were treated with atorvastatin at 10 mg day-1 for at least 10 weeks. During the last 5 weeks the patients were randomized into two groups receiving 1.68 g day(-1) omega-3 fatty acids (omega-3 FA) or placebo (corn oil). The fasting levels of FVII antigen (FVII-Ag) and FVII coagulant activity (FVII:C) were high compared with healthy males. The fasting levels of activated FVII (FVIIa) and FVII-Ag correlated both to serum triglycerides and apolipoprotein A1 (apoA1). FVIIa and FVII:C increased during postprandial hyperlipemia. This increase of FVIIa correlated to the fasting triglyceride and apoA1 levels, but not to the degree of postprandial hypertriglyceridemia. The concentrations of fasting FVIIa in these patients were reduced in parallel with a reduction of fasting triglycerides by treatment with atorvastatin + placebo. This treatment also reduced the postprandial level of FVIIa. omega-3 FA in addition to atorvastatin further reduced FVIIa concentrations, fasting and postprandially, and also significantly reduced FVII:C and FVII-Ag during postprandial hyperlipemia. Prothrombin fragment 1 + 2 (F1 + 2) increased during postprandial hyperlipemia. This increase was significantly reduced after treatment with atorvastatin plus omega-3 FA. The increase of F1 + 2 measured as incremental area under the curve (iAUC) during postprandial hyperlipemia correlated to the fasting levels of FVIIa, FVII:C and FVII-Ag and also to the levels of these factors during postprandial lipemia. In conclusion, patients with combined hyperlipemia are at risk for activation of the coagulation system, particularly during postprandial lipemia. This activation may be significantly reduced by statins and omega-3 FA.

Inflammatory markers have been demonstrated to be associated with increased risk of cardiovascular events. In this setting, C-reactive protein (CRP) was shown to add predictive value to cholesterol levels. We investigated hypercholesterolemic patients and related their inflammatory variables and their coagulation state focusing on factor VII, a coagulation protein which plays an established role in thrombogenesis. We examined the relationship between factor VII clotting activity (FVIIc), FVII antigen (FVIIAg) and activated FVII (FVIIa) levels against CRP, interleukin-6 soluble receptor (IL-6sR), P-selectin, soluble intercellular adhesion molecule-1 (ICAM-1) and transforming growth factor-beta(1) (TGF-beta(1)), in fifty-eight hypercholesterolemic subjects. Patients were subjected to 6-8 weeks of lipid lowering treatment with diet or diet plus pravastatin (40 mg/day). Univariate analysis showed that FVII levels were positively associated with CRP (FVIIAg: r=0.56, P<0.0001; FVIIc: r=0.57, P<0.0001; FVIIa: r=0.39, P<0.001) and IL-6sR (FVIIAg: r=0.59, P<0.0001; FVIIc: r=0.52, P<0.0001; FVIIa: r=0.47; P<0.001). CRP was still correlated, at the baseline, with FVIIAg and FVIIc levels after multiple stepwise regression analysis (FVIIAg: P<0.0001; FVIIc: P<0.0001, respectively) and with FVIIAg at the end of lipid lowering treatment (P<0.0001). Our data indicate that the FVII level is independently associated with inflammatory variables and suggest their pathophysiological link in hypercholesterolemic patients.

BACKGROUND

Pre-eclampsia is associated with increased placental debris circulating in maternal plasma.

OBJECTIVE

This study related placental debris to maternal markers of coagulation and endothelial activation in pre-eclampsia.

METHODS

Circulating fetal corticotrophin-releasing hormone (CRH) mRNA and phosphatidylserine (PS)-exposing microparticles were assayed in third trimester plasma from women with pre-eclampsia (n = 32) and controls (n = 32) matched for age, body mass index, parity, and gestational age at sampling. Markers of maternal hemostasis and endothelial function were assessed.

RESULTS

Fetal CRH mRNA levels were higher in pre-eclampsia [mean 0.75 (SD 2.77) CRH/glyceraldehyde-3-phosphate dehydrogenase (GAPDH) mRNA ratio] than in control pregnancies [0.20 (0.74), P = 0.014]. PS-exposing microparticle levels were not different between the groups. Women with pre-eclampsia had higher levels of tissue factor pathway inhibitor (TFPI), prothrombin F(1+2) fragment (F(1+2)), factor XIIa, soluble vascular cell adhesion molecule 1, von Willebrand factor and plasminogen activator inhibitor 1 than controls. Fetal CRH mRNA correlated with TFPI in pre-eclampsia and control groups (r = 0.38, P = 0.031, and r = 0.37, P = 0.039, respectively). Fetal CRH mRNA correlated with FVII activity (r = 0.43, P = 0.017) and PS-exposing microparticles correlated inversely with F(1+2) (r = -0.64, P < 0.001) in pre-eclampsia.

CONCLUSIONS

Placental debris, assessed by fetal CRH mRNA levels in maternal blood, is related to coagulation potential, i.e. FVII activity, but not to markers of coagulation or endothelial activation in pre-eclampsia.

Proteolytic cleavage of the peptide bond between Arg(152) and Ile(153) converts the procoagulant protein Factor VII (FVII) to an activated two-chain form (FVIIa). The formation of a salt bridge between Ile(153) and Asp(343) drives the conversion of FVIIa from being zymogen-like to the active form. In the present paper, we describe the novel FVII mutant V154G (Val(154)->>Gly mutation; residue 17 in the chymotrypsin numbering system), found in three FVII-deficient patients, which models a zymogen-like form of FVIIa. Recombinant V154G FVIIa, although normally cleaved, shows markedly reduced activity towards peptidyl substrate and undetectable activity towards macromolecular substrates. Susceptibility of Ile(153) to chemical modification, in either the presence or the absence of tissue factor (TF), suggests that the reduced V154G FVIIa activity is caused by impaired salt-bridge formation, thus resulting in a zymogen-like FVIIa form. The TF-mediated protection from chemical modification of V154A indicated that Gly(154) is responsible for this peculiar feature, and suggests that this region, proximal to the heavy chain N-terminus, is directly involved in the conversion of FVII into FVIIa. V154G FVII was exploited to study the FVII-TF interaction, together with three additional FVII variants that were expressed to serve as models for different FVII forms. The comparison of binding affinities of full-length TF after relipidation in L-alpha-phosphatidylcholine for the zymogen FVII (Arg(152)->>Gln, K (d)=1.04+/-0.27 nM), inactive FVIIa (Ser(344)->>Ala, K (d)=0.27+/-0.06 nM) and a zymogen-like FVIIa (V154G, K (d)=1.15+/-0.16 nM) supports the hypothesis that preferential binding of TF to active FVIIa is insufficient to drive the 10(5)-fold enhancement of FVIIa activity. In addition, the inability of V154G FVIIa to accommodate an inhibitor in the active site, indicating an improperly shaped specificity pocket, would explain the low activity of the zymogen-like form of FVIIa, which is predominant in the absence of TF.

The macrovascular complications of non-insulin-dependent diabetes mellitus (NIDDM) are related to the features of insulin resistance (IR). High Factor VII:C (FVII:C) levels are associated with increased cardiovascular risk and relate to a base change in the FVII gene detected by Msp I endonuclease, and also to an insertion polymorphism in the promoter region. To examine the association between FVII:C levels, genotype and features of IR, 95 NIDDM patients were studied. Genotype was related to FVII:C levels (M1M1 137%, n = 75; M1M2 and M2M2 114%, n = 20, p < 0.005; AA 136%, n = 71; Aa 119%, n = 21, p < 0.05), which is consistent with previous studies in healthy populations. FVII:C correlated with cholesterol (r = 0.51, p < 0.0005), insulin (r = 0.36, p = 0.002), triglycerides (r = 0.34, p = 0.001), age (r = 0.23, p < 0.005) and body mass index (r = 0.23, p < 0.05). When analysed by Msp I genotype, the stronger predictor of FVII:C levels, these correlations remained, with no difference in regression slopes. In a multiple regression model, genotype, cholesterol, insulin, and gender remained as independent predictors of FVII:C levels. In conclusion, FVII:C concentrations are elevated in NIDDM in relation to both FVII genotypes and features of IR.

High circulating levels of coagulation factor VII (FVII) are known to be associated with elevated concentrations of blood lipids. More specifically, hypertriglyceridemia is correlated with raised FVII coagulant activity (FVIIc). Recently, evidence has been described which suggests that elevation in FVIIc might reflect an increase in the total concentration of FVII, as evaluated by quantitation of FVII antigen (FVIIag). It is also known that FVIIc represents a risk factor for cardiovascular death, but the prediction of cardiovascular risk based on triglyceride estimation is the subject of conflicting results. Since dyslipidemia featuring abnormal triglyceride metabolism is pathophysiologically heterogeneous, we analyzed the possible relationships between FVII and triglyceride further and under standardized postprandial conditions. For this purpose we studied FVIIc and FVIIag in relation to triglyceridemia after a standardized test meal. Our results confirm that FVIIc and FVIIag levels are strongly correlated with each other (r = 0.714; p = 0.01). In addition, both were significantly increased (p less than 0.02) in patients who exhibited abnormal triglyceride levels 8 h after a standardized test meal, as compared to those who displayed normal triglyceridemia. Furthermore, we found that apolipoprotein B levels were also increased in such patients. The deficient postprandial catabolism of triglycerides, therefore, appears to be related to an increase in total FVII concentration, suggesting that some association between the metabolism of triglyceride-rich lipoproteins and FVII might underlie the mechanism of the elevation in FVII. Given the important contribution of FVII to hypercoagulability, then our results may be relevant to the understanding of the role of postprandial triglyceride in atherogenesis and in consideration of the circadian prevalence of cardiovascular thrombosis.

Simvastatin, a widely used 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase inhibitor, effectively reduced cardiac death and ischemic events in patients with coronary heart disease (CHD) and diabetes mellitus (DM). The mechanism of cardiovascular benefits of statins in DM remains unclear. We examined how simvastatin influences the levels of several in vivo markers for coagulation and fibrinolysis in 26 Type 2 DM patients. The diabetic patients received 20 mg/day of simvastatin up to 12 months. The levels of total cholesterol (TC), low density lipoprotein-cholesterol (LDL-c) and triglycerides in peripheral circulation of patients were significantly reduced after>> or =6 weeks of simvastatin treatment. Levels of prothrombin fragment 1+2 (F1+2), factor VII, plasminogen activator inhibitor-1 (PAI-1) and tissue factor pathway inhibitor (TFPI) antigens, but not tissue plasminogen activator (tPA) antigen, in the pre-simvastatin plasmas of the diabetic patients were significantly higher than the levels found in plasmas of healthy subjects. Significant reductions in F1+2 and PAI-1 levels were evident>> or =6 weeks after the diabetic patients received simvastatin. Levels of total tPA, TFPI, FVII, hemoglobin A1c, fasting blood glucose, and insulin in the diabetic patients' plasma were not significantly altered by simvastatin treatment. Positive correlations were found between PAI-1 versus TC, PAI-1 versus LDL-c, and FVII versus triglycerides in the plasmas of simvastatin-treated patients. The results suggest that simvastatin reduces in vivo prothrombinase activity and PAI-1 levels in type 2 DM patients. These actions may contribute to the protective properties of simvastatin against ischemic events in diabetic patients.

BACKGROUND

Recombinant factor VIIa (rFVIIa) is approved for use in controlling bleeding episodes in people with hemophilia who have developed inhibitors to replacement therapy. Due to its short half-life (t½), frequent injections are required, limiting its use as a prophylactic treatment. A novel, recombinant fusion protein linking coagulation factor VIIa with albumin (rVIIa-FP) has been developed to extend the t(½) of rFVIIa.

OBJECTIVE

The aim of our studies was to investigate the pharmacokinetic/pharmacodynamic characteristics of rVIIa-FP in preclinical animal species.

METHODS

Pharmacokinetic (PK) parameters were derived after single intravenous dosing in hemophilia A mice, rats, rabbits and monkeys. PK analysis was based on human FVII plasma levels determined by measuring FVII antigen levels by ELISA in mice and rats, and FVIIa activity using STACLOT® VIIa-rTF in rabbits and monkeys. Induction of thrombin generation was investigated in mice, while hemostatic activity was assessed by thrombus formation in rabbits.

RESULTS

Compared with rFVIIa, rVIIa-FP displayed a prolonged t(½), enhanced in vivo recovery and reduced clearance in all species investigated. In mice, 16 h after treatment with rVIIa-FP, thrombin levels were quantifiable, indicating prolonged efficacy, whereas values had approached baseline at this time after treatment with rFVIIa. After 12 h, hemostatic efficacy was negligible in rFVIIa-treated rabbits, but sustained in animals receiving rVIIa-FP.

CONCLUSIONS

These studies indicate that the longer t(½) of rVIIa-FP compared with rFVIIa translates into extended activity. These findings suggest that rVIIa-FP has the potential to be administered less frequently than rFVIIa-containing concentrates in clinical use.

Increased plasma factor VII coagulant activity (FVII:C) has been associated with the risk of ischemic heart disease (IHD). Differences in plasma FVII:C among individuals are associated with three common polymorphisms in the FVII gene. Therefore, we investigated FVII polymorphisms in four populations that differ in their risk of developing cardiovascular disease, namely, Europeans, Greenland Inuit, Gujarati Indians, and Afrocaribbeans. We studied (1) the promoter polymorphism, which is the result of a decanucleotide insertion in the FVII promoter at position -323 from the start of translation; (2) the hypervariable region 4 polymorphism (HVR4), which is the result of a variable number of tandem repeats in intron 7; and (3) the RQ353 polymorphism, a guanine-to-adenine substitution in the position of the codon for amino acid 353 resulting in an amino acid replacement of arginine (R) by glutamine (Q) in the FVII protein. The frequencies of these three polymorphisms and their linkage disequilibrium were different in the four populations studied. The frequencies of the alleles associated with higher plasma FVII:C were lower in the Europeans than in the Inuit, a population with a lower incidence of IHD. There was an association between both the promoter polymorphism and the RQ353 polymorphism and the plasma FVII:C in the Europeans, the Inuit, and the Gujarati Indians, and an association only between the RQ353 polymorphism and plasma FVII:C in the Afrocaribbeans. Only in the Inuit was the HVR4 polymorphism associated with plasma FVII:C. In multiple regression analysis, the additional information provided by the promoter polymorphism when the other polymorphisms were already included in the model was the most pronounced, suggesting that the promoter polymorphism may be the functional mutation having the greatest effect on determining plasma FVII:C.

BACKGROUND

Factor VII coagulant activity (FVII:c) is associated with an increased risk of fatal ischemic heart disease, is correlated with plasma triacylglycerol concentration, and increases after a meal rich in long-chain fatty acids.

OBJECTIVE

We planned to compare effects of meals rich in oleate and butter fat with those of a low-fat meal on FVII:c and fibrinolytic activity.

METHODS

A crossover design was used to compare the postprandial effects on coagulant and fibrinolytic activities in 12 men of 3 high-fat (95 g) meals--high oleate, butter, and oleate + medium-chain triacylglycerols (oleate+MCT)--with an isoenergetic low-fat meal (18 g MCT). The oleate+MCT blend was used to mimic the ratio of long-chain to shorter-chain fatty acids in butter.

RESULTS

Neither the amount nor type of fat consumed influenced plasminogen activator inhibitor 1 or t-plasminogen activator activities or D-dimer concentration. FVII:c increased by 12.5% (95% CI: 4.6%, 20.5%) after the high-fat meals at 3 h and by 6.7% (95% CI: 1.6%, 11.7%) at 7 h and changed 7 h after the low-fat meal by -14.3% (95% CI: -3.3%, -25.4%). The responses to the high-fat meals did not differ. Measurements of activated FVII (FVIIa), FVII zymogen, and activated FXII (FXIIa) concentrations made after the low-fat and high-oleate meals showed a significant increase in FVIIa only after the high-oleate meal.

CONCLUSIONS

The results of this study confirm that FVII:c falls after a low-fat meal and suggests that postprandial activation of FVII occurs rapidly after a fat-rich meal without involving an increase in FXIIa.

BACKGROUND

Tissue factor (TF) and/or active factor (F)VIIa may be stored inside resting platelets.

OBJECTIVE

The objective of this study was to examine if platelets, following activation of GPVI, could support tenase and prothrombinase activity without any exogenously added tissue factor.

METHODS

Thrombin (IIa) formation on gel-filtered platelets with added factors or the clotting of platelet-free plasma (PFP) or platelet-rich plasma (PRP) supplemented with corn trypsin inhibitor (CTI) (to inhibit factor XIIa) was studied in well plate assays with a fluorogenic thrombin substrate or in flow assays by fibrin visualization.

RESULTS

Pretreatment of convulxin (CVX)-stimulated, fibrinogen-adherent, gel-filtered platelets with anti-TF, anti-FVII/VIIa, or 1 nm PPACK [inhibitor of FVIIa, factor XIa and factor (F)IIa] delayed fibrin deposition on platelets perfused with PFP/CTI at 62.5 s(-1). Anti-TF or anti-FVII/VIIa also attenuated thrombin generation in plate assays using recalcified PRP/CTI treated with CVX. Anti-TF or anti-FVII/VIIa (but not inhibited factor IXa) delayed the burst in thrombin production by gel-filtered platelets suspended in prothrombin and CVX by 14 min and 40 min, respectively. Anti-FVII/VIIa completely eliminated thrombin generation on fibrinogen-adherent, gel-filtered platelets pretreated with 10 micro m PPACK and 10 micro m EGR-CK [inhibitor of factor (F)Xa], rinsed, and then supplemented with CVX, prothrombin, and FX. Addition of anionic phospholipid to PFP/CTI or to a mixture of prothrombin, FX, and recVIIa was not sufficient to generate detectable tenase activity. Lastly, isolated, unactivated neutrophils suspended in FX, FII and recVIIa supported a very low level of thrombin generation sensitive to antagonism of P-selectin, CD18, and TF.

CONCLUSIONS

Activated platelets supported tenase and prothrombinase activity by elevating the function or level of FVIIa and exposing active FVIIa or FVIIa-cofactor(s), distinct from anionic lipid, that may be, in part, TF.

Recombinant-activated factor VII (rFVIIa) represents a therapeutic advance for the treatment and prevention of haemorrhage in patients with the rare bleeding disorder, congenital FVII deficiency. Thirty-nine cases of the use of rFVIIa in 30 patients with congenital FVII deficiency were identified from the international, internet-based registry haemostasis.com, which is a repository of case reports on the investigational use of rFVIIa that have been voluntarily submitted by physicians worldwide. These registry data have limitations compared with clinical-trial data but give valuable insights into a treatment for a rare disease that is virtually impossible to assess in conventional clinical trials. rFVIIa was used in: elective surgery (13 cases); haematoma (9 cases); emergency surgery (6 cases); epistaxis (4 cases); menorrhagia (2 cases); cover during childbirth (2 cases); disseminated intravascular coagulation (1 case; premature infant); removal of intradermal stitches (1 case); and haematuria (1 case). In 22/39 cases, rFVIIa was used prophylactically. Total dose and dosing schedules varied; median individual dose was 13.3 mug/kg body weight (bw) (range 1.2-223.8 mug/kg bw), median total dose was 38 microg/kg bw (range 1.2-758 microg/kg bw) and median number of doses was 3 (range 1-55). rFVIIa was generally associated with bleeding cessation or markedly reduced bleeding. Two adverse events were reported, but neither was regarded as being related to rFVIIa. These 39 cases support data confirming the safety and efficacy of rFVIIa in its EU-licensed indications, including that for preventing and/or controlling haemorrhage in patients with congenital FVII deficiency.

BACKGROUND

Units of frozen S/D-treated plasma (SDP) must be transfused within 24 hours after thawing. To avoid waste, an attempt was made to determine how long SDP could be therapeutically effective after thawing and storing it at 20 degrees C.

METHODS

The microbiologic safety and the activity of labile coagulation factors were evaluated in units stored at 20 degrees C of thawed SDP units and FFP within 24 hours of collection (FFP24). Five SDP and FFP24 samples of each ABO blood group were cultured and assayed for coagulation factors daily over 5 days. Assays included FV, FVII, FVIIa, FVIII, F IX, FXI, protein S, antiplasmin, fibrinogen, prothrombin times (PTs), and activated partial thromboplastin times (aPTTs).

RESULTS

None of the 80 bacterial cultures demonstrated growth under either aerobic or anaerobic conditions. FV, FVIII, F IX, FXI, fibrinogen, and the aPTT appeared to be stable in both thawed FFP24 and SDP. The PT increased slightly in thawed FFP24 and insignificantly in SDP. FVII decreased slightly in FFP24 but remained in the normal range, and FVIIa was low and constant. FVII was increased in SDP and FVIIa was markedly increased. Protein S decreased from initial normal values in FFP24 to very low values. Protein S was very low immediately after thawing in the SDP and continued to decline. Antiplasmin was normal and stable in thawed FFP24 but was low in SDP and remained constant after thawing.

CONCLUSIONS

Sterile SDP that is stored at 20 degrees C provides sufficient coagulant activity of labile FV and FVIII to transfuse it for up to 5 days after thaw. Caution is warranted by decreases in Protein S and antiplasmin, clinical evidence of coagulopathy in some recipients of SDP, and a recent manufacturer's warning.

OBJECTIVE

Factor VII (FVII) and factor X (FX) are two predominant molecules of coagulation cascade. Whether porcine FVII and FX could efficiently work in human circulation is important for successful pig to human liver transplantation. We compared the genetic characterizations and coagulation activities of porcine and human FVII and FX to shed insight into the further investigation of potential inter-species molecular incompatibility between porcine FVII, FX and human derived procoagulants and anticoagulants in xenotransplantation.

METHODS

Multiple rounds of PCR were used to screen the positive clones from a porcine liver tissue cDNA library. 5' RACE and 3' RACE were conducted to get the full-length cDNA. The three-dimensional structure of protein was modeled by Swiss-Model program. Prothrombin Time (PT) of porcine and human plasma was determined by coagulation autoanalyzer. Activities of porcine FVII and FX were detected by adding the porcine plasma into FVII or FX-deficient human plasma.

RESULTS

We cloned the full-length cDNA of porcine FVII and FX, which contained 1416 bp and 1856 bp, coding 445 and 479 amino acids, respectively. Porcine FVII and FX shared 74.08% and 73.1% amino acid identities with human FVII and FX. Sequence alignments showed that porcine FVII might have additional gamma-carboxyglutamic acid in Gla domain, and one important variation of Lys62-Glu in light chain. No significant difference was observed in TF binding region of heavy chain, while 4 variations were identified in the important functional residues responsible for proteolysis activity, as Gln217-Glu, Thr151-Lys, Glu154-Val and Gln40-Leu. However, no apparent change was displayed in the 3-D model of the heavy chain of porcine FVII. When porcine FX was analyzed, great variations have been found at active peptide (Ser143 to Arg194) with only 11.6% identity. Some important variations at gamma-carboxyglutamic acids and Ca(2+) binding sites were identified, while high conservations were discovered at other functional sites. Comparisons on 3-D protein models demonstrated that the protein backbones of porcine and human FX were highly conserved, and little difference was shown at the molecular surface of anticoagulant binding sites S2 and S3. PT detection of porcine and human plasma showed similar results, while coagulation activities of porcine FVII and FX were remarkably higher than that of human.

CONCLUSIONS

Porcine FVII and FX showed relatively high homology with human FVII and FX in nucleotide, amino acid sequences and three-dimensional structure. However, the different affinities to important macromolecules caused by genetic differences might contribute to the molecular incompatibilities in liver xenotransplantation.

BACKGROUND

Prothrombin complex concentrates (PCCs), which contain different coagulation proteins, are attractive alternatives to the standard methods to treat dilution-induced (and, generally, traumatic) coagulopathy. We investigated the ability of a novel PCC composition to restore normal thrombin generation in diluted blood. The performance of the proposed PCC composition (coagulation factors [F] II, IX, and X and the anticoagulant antithrombin), designated PCC-AT, was compared with that of FVIIa and PCC-FVII, which is the PCC composition containing FII, FVII, FIX, and FX (main components of most PCCs).

METHODS

We used a thoroughly validated computational model to simulate thrombin generation in normal and diluted blood for 472 healthy subjects in the control group of the Leiden Thrombophilia Study. For every simulated thrombin curve, we calculated and analyzed five standard thrombin generation parameters.

RESULTS

The three therapeutic agents (FVIIa, PCC-FVII, and PCC-AT) caused statistically significant changes in each of the five thrombin generation parameters in diluted blood. Factor VIIa tended to primarily impact clotting time, thrombin peak time, and maximum slope of the thrombin curve, whereas in the case of PCC-FVII, thrombin peak height and the area under the thrombin curve were affected particularly strongly. As a result, these two therapeutics tended to push those respective parameters outside their normal ranges. PCC-AT significantly outperformed both FVIIa and PCC-FVII in its ability to normalize individual thrombin generation parameters in diluted blood. Furthermore, PCC-AT could simultaneously restore all five thrombin generation parameters to their normal levels in every subject in the study group.

CONCLUSIONS

Our computational results suggest that PCC-AT may demonstrate a superior ability to restore normal thrombin generation compared with FVIIa and PCC-FVII.

BACKGROUND

Pathogen inactivation of plasma intended for transfusion is now the standard of care in Belgium. Two methods for treatment of single plasma units are available: amotosalen plus ultraviolet A light and methylene blue plus visible light. This study compared the quality and stability of plasma treated with these two methods.

METHODS

Plasma units made from a pool of two ABO-matched fresh apheresis units were photochemically treated with either amotosalen (PCT-FFP) or methylene blue (MB-FFP). A total of 12 paired samples were evaluated. Plasma coagulation function was assessed at three time points: immediately after treatment, after 30 days of frozen storage, and an additional 24 hours at 4 degrees C after thawing. Comparison between PCT-FFP and MB-FFP was assessed with the paired t test and a p value of less than 0.05 indicated statistical significance.

RESULTS

Based on statistical analysis, mean levels of factor (F)II, FXII, FXIII, von Willebrand antigen, ADAMTS-13, D-dimers, and protein C were equivalent between PCT-FFP and MB-FFP for all three time points. PCT-FFP exhibited shorter mean prothrombin time, activated partial thromboplastin time (two time points), and thrombin time and higher mean levels of fibrinogen, FXI, and protein S than MB-FFP. Retention of FV, FVII, FVIII, FX, or von Willebrand factor:ristocetin cofactor in PCT-FFP was either equivalent to or higher than MB-FFP. MB-FFP contained higher mean levels of plasminogen, antithrombin, and plasmin inhibitor than PCT-FFP. Retention of F IX in MB-FFP was higher than PCT-FFP only after the 4 degrees C storage after thawing.

CONCLUSIONS

There is adequate preservation of therapeutic coagulation factor activities in both PCT-FFP and MB-FFP. The overall coagulation factor levels and stability of PCT-FFP were better preserved than MB-FFP.

The intraindividual variability in terms of coagulation analyses was explored in 10-16 samples collected from each of 15 women during one menstrual cycle. For comparison, six men were sampled six times during a period of 30 days. The following variables were analysed: FVII, FVIII, FX, vWF:Ag, vWF:ristocetin cofactor, fibrinogen, antithrombin, plasminogen and anti-plasmin. The results demonstrated mean coefficients of variation ranging between 4.5 (plasminogen) and 20.7 (vWF:Ag). In certain individuals, the intraindividual variability amounted to nearly 40%, in particular in the assays of FVIII and vWF:Ag. No direct relation between these two factors and oestradiol, progesterone or testosterone levels could be observed in our individuals. The implications of these variations are discussed in terms of disease prediction and diagnosis of coagulation disorders.

Identification of target molecules specific for angiogenic vascular endothelial cells (VEC), the inner layer of pathological neovasculature, is critical for discovery and development of neovascular-targeting therapy for angiogenesis-dependent human diseases, notably cancer, macular degeneration and endometriosis, in which vascular endothelial growth factor (VEGF) plays a central pathophysiological role. Using VEGF-stimulated vascular endothelial cells (VECs) isolated from microvessels, venous and arterial blood vessels as in vitro angiogenic models and unstimulated VECs as a quiescent VEC model, we examined the expression of tissue factor (TF), a membrane-bound receptor on the angiogenic VEC models compared with quiescent VEC controls. We found that TF is specifically expressed on angiogenic VECs in a time-dependent manner in microvessels, venous and arterial vessels. TF-targeted therapeutic agents, including factor VII (fVII)-IgG1 Fc and fVII-conjugated photosensitizer, can selectively bind angiogenic VECs, but not the quiescent VECs. Moreover, fVII-targeted photodynamic therapy can selectively and completely eradicate angiogenic VECs. We conclude that TF is an angiogenic-specific receptor and the target molecule for fVII-targeted therapeutics. This study supports clinical trials of TF-targeted therapeutics for the treatment of angiogenesis-dependent diseases such as cancer, macular degeneration and endometriosis.

Targeting cancer stem cell (CSC) represents a promising therapeutic approach as it can potentially fight cancer at its root. The challenge is to identify a surface therapeutic oncotarget on CSC. Tissue factor (TF) is known as a common yet specific surface target for cancer cells and tumor neovasculature in several solid cancers. However, it is unknown if TF is expressed by CSCs. Here we demonstrate that TF is constitutively expressed on CD133 positive (CD133+) or CD24-CD44+ CSCs isolated from human cancer cell lines, tumor xenografts from mice and breast tumor tissues from patients. TF-targeted agents, i.e., a factor VII (fVII)-conjugated photosensitizer (fVII-PS for targeted photodynamic therapy) and fVII-IgG1Fc (Immunoconjugate or ICON for immunotherapy), can eradicate CSC via the induction of apoptosis and necrosis and via antibody-dependent cellular cytotoxicity and complement-dependent cytotoxicity, respectively. In conclusion, these results demonstrate that TF is a novel surface therapeutic oncotarget for CSC, in addition to cancer cell TF and tumor angiogenic vascular endothelial TF. Moreover, this research highlights that TF-targeting therapeutics can effectively eradicate CSCs, without drug resistance, isolated from breast, lung and ovarian cancer with potential to translate into other most commonly diagnosed solid cancer, in which TF is also highly expressed.

Rare bleeding disorders (RBDs) are a heterogeneous group of coagulation disorders characterized by fibrinogen, prothrombin, factors V, VII, X, XI, or XIII (FV, FVII, FX, FXI, or FXIII, respectively), and the combined factor V + VIII and vitamin K-dependent proteins deficiencies, representing roughly 5% of all bleeding disorders. They are usually transmitted as autosomal, recessive disorders, and the prevalence of the severe forms could range from 1 case in 500 000 for FVII up to 1 in 2-3 million for FXIII in the general population. Patients affected with RBDs may present a wide range of clinical symptoms, varying from mucocutaneous bleeding, common to all types of RBDs to the most life-threatening symptoms such as central nervous system and gastrointestinal bleeding. Treatment of these disorders is mainly based on the replacement of the deficient factor, using specific plasma-derived or recombinant products. In countries where these facilities are not available, bleedings could be managed using cryoprecipitate, fresh frozen plasma (FFP), or virus-inactivated plasma. Minor bleedings could be managed using antifibrinolytic agents. Recently, 2 novel drugs, recombinant FXIIIA and a plasma-derived FX, have been added to the list of available specific hemostatic factors; only prothrombin and FV deficiencies still remain without a specific product. Novel no-replacement therapies, such as monoclonal antibody anti-tissue factor pathway inhibitor, RNA interference, and a bispecific antibody that is an FVIIIa mimetic, enhancing thrombin generation through different mechanisms, were developed for patients with hemophilia and may in the future be a good therapeutic option also in RBDs.