BACKGROUND

Disturbances of coagulation and fibrinolysis are well-known systemic effects of acute necrotising pancreatitis (ANP). The purpose of this experimental study was to evaluate the initial events in the haemostatic activation during ANP in an animal model with relevance to the human situation.

METHODS

ANP was introduced in 7 rabbits by infusion of chenodeoxycholic acid in the pancreatic duct. Seven rabbits served as sham-operated controls. Serial measurements of coagulation variables (prothrombin time, activated partial thromboplastin time, FVII activity, fibrinogen, tissue factor activity), anticoagulant proteins (protein C, antithrombin) and fibrinolytic factors (tissue plasminogen activator, plasminogen activator inhibitor-1) were performed for 5 h.

RESULTS

ANP was confirmed by elevated serum amylase, development of ascites, and histological changes of the pancreas. A moderate activation of the coagulation system was found in both study groups. A significant decrease in protein C concentration from 1 h after the induction of ANP was found, whereas the response of antithrombin and the inhibition of the fibrinolytic system were similar in the 2 study groups. Microthrombosis of the lungs or kidneys was found in 2 rabbits with ANP.

CONCLUSIONS

An immediate activation of protein C is a specific characteristic of the haemostatic activation in ANP in rabbits. This activation has not been described previously and the possible therapeutic implications ought to be studied.

Recombinant activated factor VII (rFVIIa; NovoSeven, Novo Nordisk A/S, Bagsvaerd, Denmark) is being increasingly used to secure haemostasis in difficult clinical situations. The role of rFVIIa in the treatment of patients undergoing open-heart surgery for valvular heart disease was evaluated in an open pilot study. Study objectives included evaluation of blood loss, haemostatic effect and safety and laboratory parameters following rFVIIa administration. To date, we have treated five patients (one child aged 2.5 years and four adults) undergoing surgical procedures including arterial switch, closure of atrial septal defect and De Vega's procedure (mitral valve replacement with tricuspid valve repair). Four patients received rFVIIa intraoperatively, while the fifth received it postoperatively. Satisfactory haemostasis was achieved with a single dose (30 microg/kg) of rFVIIa. Four hours after treatment mean blood loss was 262.5 ml for adults (220-334 ml) and 85 ml for the child. No significant adverse events were reported. Laboratory parameters indicated a mean 18.5-fold (range 3.7-42) increase in FVII levels at 30 min postinjection and a mean reduction of 12 s (range 3-39 s) in prothrombin time. In conclusion, rFVIIa represents an effective and well-tolerated treatment for serious bleeding episodes both during cardiac surgery and postoperatively.

Platelets play a central role in primary hemostasis. The role of the coagulation mechanism during early stages of hemostasis is less clear, although increasing evidence is emerging indicating the ultimate importance of the factor VII (FVII)-tissue factor-dependent coagulation system in providing the first thrombin molecules necessary for the platelet activation to occur. Supporting this, early fibrin formation has been reported to occur within the bleeding time wound and infusion of recombinant FVIIa (rFIIa) has been shown to shorten the bleeding time in rabbits. We have investigated whether infusion of rFVIIa would enhance fibrin formation in bleeding time wounds in patients with thrombocytopenia as reflected by a shortening of the bleeding time. A reduction of the bleeding time was found in 55/105 cases (52%). The decrease was significantly more pronounced when the platelet count exceeded 20 x 10(9)/l. With the exception of an anaphylactoid reaction in 1 patient, no major adverse reactions related to the study drug were observed. Nine infusions of rFVIIa were given to 8 thrombocytopenic patients with overt bleeding. One patient received two infusions. Bleeding decreased in all patients and stopped in 6 patients.

Factor X is activated to factor Xa (fXa) in the extrinsic coagulation pathway by the tissue factor (TF)/factor VIIa (fVIIa) complex. Upon activation, the fXa molecule remains associated with the TF/fVIIa complex, and this ternary complex is known to activate protease-activated receptors (PARs) 1 and 2. Activation of fVII in the TF complex by fXa is also seen at physiologic concentrations. The ternary complexes TF/fVII/fXa, TF/fVIIa/fX, and TF/fVIIa/fXa are therefore all physiologically relevant and of interest as targets for inhibition of both coagulation and cell-signaling pathways that are important in cardiovascular disease and inflammation. We therefore present a model of the TF/fVIIa/fXa complex, built with the use of the available structures of the TF/fVIIa complex and fXa by protein-protein docking calculations with the program Surfdock. The fXa model has an extended conformation, similar to that of fVIIa in the TF/fVIIa complex, with extensive interactions with TF and the protease domain of fVIIa. All four domains of fXa are involved in the interaction. The gamma-carboxyglutamate (Gla) and epithelial growth factor (EGF1 and EGF2) domains of fVIIa are not significantly involved in the interaction. Docking of the Gla domain of fXa to TF/fVIIa has been reported previously. The docking results identify potential interface residues, allowing rational selection of target residues for site-directed mutagenesis. This combination of docking and mutagenesis confirms that residues Glu51 and Asn57 in the EGF1 domain, Asp92 and Asp95 in the EGF2 domain, and Asp 185a, Lys 186, and Lys134 in the protease domain of factor Xa are involved in the interaction with TF/fVIIa. Other fX protease domain residues predicted to be involved in the interaction come from the 160s loop and the N-terminus of the fX protease domain, which is oriented in such a way that activation of both fVII by fXa, and the reciprocal fX activation by fVIIa, is possible.

In mammalian blood coagulation 5 proteases, factor VII (FVII), factor IX (FIX), factor X (FX), protein C (PC) and prothrombin act with two cofactors factor V and factor VIII to control the generation of fibrin. Biochemical evidence and molecular cloning data have previously indicated that blood coagulation involving tissue factor, prothrombin and fibrinogen is present in all vertebrates. Using degenerate RT-PCR we have isolated and characterized novel cDNAs with sequence identity to the blood coagulation serine proteases and cofactors from chicken and the puffer fish (Fugu rubripes). Sequence alignments, phylogenetic and comparative sequence analysis all support the existence of the Gla-EGF1-EGF2-SP domain serine proteases FVII, FIX, FX, PC and the A1-A2-B-A3-C1-C2 domain protein cofactors FV and FVIII in these species. These results strongly suggest that the blood coagulation network is present in all jawed vertebrates and evolved before the divergence of tetrapods and teleosts over 430 million years ago; and that vertebrate blood coagulation may have benefited from two rounds of gene or whole genome duplication. Sequences identified in Fugu coding for additional FVII-like, FIX-like and PC-like sequences support the possibility of further tandem and large-scale duplications in teleosts. Comparative sequence analyses of amino acid residues in the active site region suggest these additional sequences have evolved new and as yet unknown functions.

Elevated levels of factor VII (FVII) and fibrinogen (Fb) have been reported as risk factors for coronary heart disease in middle-aged and older adults. The purpose of this study was to determine whether increased levels of these and other hemostatic factors (FVIII, von Willebrand factor [vWF]) were associated with other coronary risk factors in young adults participating in the Coronary Artery Risk Development in Young Adults (CARDIA) Study. Hemostatic factors were measured in 1724 participants aged 23 to 35 years who were roughly balanced by sex and race (black/white). Fb was greater in women than men (black, 288 versus 253 mg/dL; white, 267 versus 240 mg/dL; overall P < .05 by Scheffé multiple-comparison test), and FVIII and vWF were higher in blacks than in whites (FVIII in men, 103% versus 88%, and in women, 104% versus 91%; vWF in men, 114% versus 98%, and in women, 117% versus 99%; P < .05). The latter factors were lower in those with blood group O, but within each blood group (except group A), blacks had significantly higher levels of FVIII and vWF. Fb was positively correlated with body mass index (r = .27 to .48, P < .001), total cholesterol (r = .13 to .17, P < .05), and low-density lipoprotein cholesterol (r = .15 to .22, P < .01) in all groups and with blood pressure, triglycerides, and cigarette smoking in white men. FVII correlated positively with cholesterol (r = .12 to .29, P < .05) and triglycerides (r = .23 to .32, P < .001) in all groups and with low-density lipoprotein in whites.(ABSTRACT TRUNCATED AT 250 WORDS)

We explored adeno-associated viral vector (AAV)-mediated gene transfer in the perinatal period in animal models of severe congenital factor VII (FVII) deficiency, a disease associated with early postnatal life-threatening hemorrhage. In young adult mice with plasma FVII < 1% of normal, a single tail vein administration of AAV (1 × 10(13) vector genomes [vg]/kg) resulted in expression of murine FVII at 266% ± 34% of normal for ≥ 67 days, which mediated protection against fatal hemorrhage and significantly improved survival. Codon optimization of human FVII (hFVIIcoop) improved AAV transgene expression by 37-fold compared with the wild-type hFVII cDNA. In adult macaques, a single peripheral vein injection of 2 × 10(11) vg/kg of the hFVIIcoop AAV vector resulted in therapeutic levels of hFVII expression that were equivalent in males (10.7% ± 3.1%) and females (12.3% ± 0.8%). In utero delivery of this vector in the third trimester to fetal monkeys conferred expression of hFVII at birth of 20.4% ± 3.7%, with a gradual decline to>> 1% by 7 weeks. Re-administration of an alternative serotype at 12 months postnatal age increased hFVII levels to 165% ± 6.2% of normal, which remained at therapeutic levels for a further 28 weeks without toxicity. Thus, perinatal AAV-mediated gene transfer shows promise for disorders with onset of pathology early after birth.

BACKGROUND

Canine factor VII (cFVII) deficiency, an autosomal recessive trait originally identified in research Beagles, is associated with a mild to moderate bleeding tendency.

OBJECTIVE

Our aim was to identify and characterize the mutation causing cFVII deficiency.

METHODS

In order to sequence the coding regions of the cFVII gene, we cloned the cFVII cDNA. Genomic DNA and plasma from FVII-deficient Beagles and obligate carriers were utilized.

RESULTS

In all <em>FVII</em>-deficient dogs, we identified a single causative G to A missense mutation in exon 5, encoding the second epidermal growth factor-like domain, resulting in substitution of glycine 96 by glutamic acid, with plasma <em>FVII</em> coagulant activity of <or = 4% in affected Beagles. In vitro expression indicated that the majority (96%) of c<em>FVII</em>-G96E protein was retained intracellularly. In addition, analysis of purified recombinant wild-type and mutant c<em>FVII</em> proteins demonstrated reduced activity of the mutant (< 2%) compared with wild-type. Rotational thromboelastometry revealed a severe impairment of clotting activity in affected Beagles, and heterozygotes also exhibited changes in coagulation-based assays. Using a mutation-specific polymerase chain reaction/restriction digest that allows rapid identification of the G96E mutation, we surveyed a US research Beagle colony and identified a mutant allelic frequency of 31%.

CONCLUSIONS

We have identified a single causative mutation for cFVII deficiency that may have implications for pharmacotoxicologic research, because reduced FVII coagulant activity may alter hemostatic and/or cardiovascular endpoints in this commonly used animal species.

BACKGROUND

Psychological stress and anxiety have been shown to produce an activation of coagulation and fibrinolysis. Resulting hypercoagulability is a risk factor for cardiovascular diseases, and could therefore contribute to an increased prevalence of coronary artery disease in anxiety patients. However, hemostasis function has not yet been studied in patients with clinically relevant anxiety disorders.

METHODS

A group of anxiety patients (panic disorder with agoraphobia or social phobia) and a healthy control group (each n = 29) completed some questionnaires [SCL-K9 (a short form of the SCL-90-R), State Trait Anxiety Inventory, ADS (general depression scale)], and had blood drawn after a 15-min rest period. To assess the reaction of the hemostatic system by global entities, sum scores were computed from parameters of coagulation and fibrinolysis (fibrinogen, FVII, FVIII, vWF, F1 + 2, TAT, D-dimer, alpha(2)-AP, PAP, tPA, PAI-1). Interfering variables, such as age, gender, alcohol consumption and smoking status, were controlled.

RESULTS

Anxiety patients scored higher in a composite hemostatic score and a sum score of fibrinolysis in comparison to the control group, with a predominant activation of inhibitors in fibrinolysis. However, the psychological variable with the closest association to hemostasis was not trait anxiety, but self-perceived worry about blood drawing before blood sampling was performed.

CONCLUSIONS

The coagulation and fibrinolysis system is activated in the direction of a hypercoagulable state in patients with severe phobic anxiety, triggered by fear of blood drawing. This could be one mediating factor for the increased risk of cardiovascular diseases in this population. Acute situational phobic anxiety should be monitored closely when studying the association between anxiety and hemostasis.

OBJECTIVE

Several hemostatic variables are identified as cardiovascular risk markers. In young and middle-aged individuals, plasma concentrations of these variables are partly determined by genetic factors. The genetic contribution to cardiovascular disease (CVD) decreases with increasing age, and it is therefore important to determine the heritability of hemostasis also in the elderly.

METHODS

The heritability of plasma levels of factor VII, fibrinogen, tissue factor, tissue factor pathway inhibitor, von Willebrand factor, thrombin activatable fibrinolysis inhibitor (TAFI), and D-dimer was determined in 130 monozygotic and 155 dizygotic same-sex twin pairs, aged 73-94 years, who participated in the Longitudinal Study of Aging of Danish Twins. Furthermore, we determined the influence of promoter polymorphisms in corresponding genes on the plasma level variation.

RESULTS

Genetic factors accounted for 33% (D-dimer) to 71% (TAFI) of the variation in plasma levels. Polymorphisms were associated with concentrations of FVII and TAFI in sib-pair based analyses, but in linkage analyses the polymorphisms did not explain a significant part of the genetic variation for any of the variables.

CONCLUSIONS

Concentrations of hemostatic variables have a substantial genetic variation in the elderly, but in this study the promoter polymorphisms only explained a minimal part of this variation.

The hypercoagulable state caused by the use of recombinant human granulocyte colony-stimulating factor (rhG-CSF) has been cited in anecdotal reports. Since tissue factor (TF) is the main initiator of the coagulation cascade, we examined if rhG-CSF had an inductive effect on the TF-dependent pathway in 18 healthy donors receiving rhG-CSF (10 microg/kg/day x 5 days) for peripheral blood progenitor cell mobilization. After rhG-CSF, there were increases both in TF antigen (TF:Ag) (P=0.01) and TF procoagulant activity (TF:PCA) (P=0.06) plasma levels and in TF:Ag cytofluorimetric expression on CD33 (+) cells (P=0.04). Mean activities of FVIII and vWF also increased significantly. Thrombin time was slightly prolonged (P=0.06) due to significant increases in plasma D-dimer levels. In addition, while FIX activity remained stable, there were marked reductions in mean plasma FX and FII activities and a slight decrease in FVII activity that resulted in a significant prolongation of prothrombin time within normal ranges. In conclusion, the administration of rhG-CSF led to a "prothrombotic state" via stimulation of TF and increased endothelial markers, such as F VIII and vWF. In the light of these findings, the use of rhG-CSF for stem cell mobilization should be undertaken cautiously in healthy donors with underlying thrombotic risk factors.

Recent studies have provided evidence for associations between common polymorphic markers in the coagulation factor VII (FVII) gene and plasma FVII levels. Here we describe two common, nonrelated, functional polymorphisms in the promoter region of the FVII gene, a G to T substitution at position -401 and a novel G to A substitution at position -402. Both polymorphisms strongly influence the binding properties of nuclear protein(s). The rare -401T allele is associated with a reduced basal rate of transcription of the FVII gene in human hepatoblastoma cells and with reduced plasma concentrations of total FVII (VIIag) and fully activated FVII molecules (VIIa). In contrast, the rare -402A allele confers increased transcriptional activity and is associated with increased plasma FVII levels. Together, the two polymorphisms explained 18% and 28% of the variation in VIIag and VIIa, respectively, in a group of 183 healthy, middle-aged men. It is concluded that these polymorphisms are important for the regulation of the plasma levels of FVII and that they are likely to be useful genetic markers to resolve the issue of whether a causal relationship exists between FVII levels and risk of coronary heart disease.

Tissue factor (TF), a cell surface glycoprotein, serves as the cellular receptor for either activated or non-activated factor VII [FVII(a)] and it is the formation of TF-FVII(a) complexes on cell surfaces which triggers the coagulation cascade in vivo. TF procoagulant functional expression on cell surfaces can be regulated by at least three distinct major mechanisms: (1) transcriptional regulation of TF gene expression; (2) cell membrane alterations in cells expressing TF; and (3) neutralization of TF-activated factor VII (FVIIa) activity by plasma inhibitors. The TF gene, which is not normally expressed in vascular cell types, can be induced by several pathophysiological stimuli, particularly those elaborated upon in inflammation and cancer. However, some of the stimuli elaborated in these pathological processes, e.g. basic fibroblast growth factor, suppress the induced expression of TF in endothelium. Not all TF molecules expressed on cell surfaces are functional even though they have the ability to bind to FVII(a). The availability of anionic phospholipids on cell membranes in the vicinity of TF and the spatial localization of TF within the cell membrane influence the functional activity of TF. Once TF-FVII(a) complexes are assembled on cell surfaces, at least two plasma inhibitors, TF pathway inhibitor and antithrombin III play an important role in regulating the TF-FVII(a) functional activity by inhibiting the activation of factor VII bound to TF and by inhibiting the catalytic activity of TF-FVIIa complexes. The availability of heparan sulphate proteoglycans with anticoagulant activity on cell surfaces plays an important role in enhancing the activity of the inhibitors. This manuscript summarizes the mechanisms by which TF functional expression on cells is regulated with a particular emphasis on the recent findings of the authors and their collaborators.

The extrinsic coagulation is recognized as an 'inducible' signalling cascade resulting from tissue factor (TF) upregulation by exposure to clotting zymogen FVII upon inflammation or tissue injury. Following the substantial initiation, an array of proteolytic activation generates mediating signals (active serine proteases: FVIIa, FXa and FIIa) that lead to hypercoagulation with fibrin overproduction manifesting thrombosis. In addition, TF upregulation plays a central role in driving a thrombosis-inflammation circuit. Coagulant mediators (FVIIa, FXa and FIIa) and endproduct (fibrin) are proinflammatory, eliciting tissue necrosis factor, interleukins, adhesion molecules and many other intracellular signals in different cell types. Such resulting inflammation could ensure 'fibrin' thrombosis via feedback upregulation of TF. Alternatively, the resulting inflammation triggers platelet/leukocyte/polymononuclear cell activation thus contributing to 'cellular' thrombosis. TF is very vulnerable to upregulation resulting in hypercoagulability and subsequent thrombosis and inflammation, either of which presents cardiovascular risks. The prevention and intervention of TF hypercoagulability are of importance in cardioprotection. Blockade of inflammation reception and its intracellular signalling prevents TF expression from upregulation. Natural (activated protein C, tissue factor pathway inhibitor, or antithrombin III) or pharmacological anticoagulants readily offset the extrinsic hypercoagulation mainly through FVIIa, FXa or FIIa inhibition. Therefore, anticoagulants turn off the thrombosis-inflammation circuit, offering not only antithrombotic but anti-inflammatory significance in the prevention of cardiovascular complications.

OBJECTIVE

We investigated in patients with ongoing myocardial infarction (MI) whether coagulation factor VII (FVII) and tissue factor (TF) levels are affected at admission by genetic components and whether they may predict subsequent cardiovascular events.

RESULTS

256 patients admitted for MI were evaluated for FVII and TF antigen levels before any treatment at entry, and were genotyped for FVII and TF polymorphisms. FVII gene insertions at -323, 11293 and the -402G/A change predicted FVII levels and explained 14% of variance. The -603 TF gene polymorphism failed to affect significantly TF levels (P=0.07). These variables were correlated with the incidence of death (36 patients) and reinfarction (9 patients) after a median follow-up of 397 days. Events were independently predicted by FVII (HR 2.1, 95% CI 1.2 to 5.7) and TF (HR 4.1, 95% CI 2 to 11) levels. Composite end point was significantly worse when both parameters were above the receiver-operating characteristics (ROC) values (HR 8.3, 95% CI 5 to 18, compared with FVII and TF below), and above the ROC value of TF (>630 pg/mL) it differed among FVII genotype groups.

CONCLUSIONS

Admission FVII and TF antigen levels, partially predicted by polymorphisms, are independent predictors of mortality and reinfarction in patients with acute MI.

BACKGROUND

Finding association between genetic variants and phenotypes related to disease has become an important vehicle for the study of complex disorders. In this context, multi-loci genetic association might unravel additional information when compared with single loci search. The main goal of this work is to propose a non-linear methodology based on information theory for finding combinatorial association between multi-SNPs and a given phenotype.

RESULTS

The proposed methodology, called MISS (mutual information statistical significance), has been integrated jointly with a feature selection algorithm and has been tested on a synthetic dataset with a controlled phenotype and in the particular case of the F7 gene. The MISS methodology has been contrasted with a multiple linear regression (MLR) method used for genetic association in both, a population-based study and a sib-pairs analysis and with the maximum entropy conditional probability modelling (MECPM) method, which searches for predictive multi-locus interactions. Several sets of SNPs within the F7 gene region have been found to show a significant correlation with the FVII levels in blood. The proposed multi-site approach unveils combinations of SNPs that explain more significant information of the phenotype than their individual polymorphisms. MISS is able to find more correlations between SNPs and the phenotype than MLR and MECPM. Most of the marked SNPs appear in the literature as functional variants with real effect on the protein FVII levels in blood.

BACKGROUND

The code is available at http://sisbio.recerca.upc.edu/R/MISS_0.2.tar.gz

Do extremely old persons have a genetically favourable profile which has protected them from cardiovascular death? We have tried to answer this question by measuring DNA polymorphisms of selected cardiovascular risk indicators [factor VII, FVII (R/Q353, intron 7 (37bp)n, and -323ins10), beta fibrinogen (-455G/A), plasminogen activator inhibitor type 1, PAI-1 (-675(4G/5G)), tissue plasminogen activator, t-PA (intron 8 ins311), platelet receptor glycoprotein IIb/IIIa, GPIIb/IIIa (L/P33), prothrombin (20210G/A), methylene tetrahydrofolate reductase, MTHFR (A/V114), angiotensin converting enzyme, ACE (intron 16 ins287), and angiotensinogen (M/T235)]. Blood was collected from 187 unselected Danish centenarians, and 201 healthy Danish blood donors, aged 20-64 years (mean age 42 years). Genomic DNA was amplified using PCR and the genotype was determined by RFLP methods or allele-specific amplification followed by agarose gel electrophoresis. The frequencies of the high-risk alleles in centenarians were: for FVII R/Q353 0.91; for FVII intron 7 (37bp)n 0.67; for FVII-323 ins10 0.90; for fibrinogen 0.16; for PAI-1 0.52; for t-PA 0.59; for GPIIb/IIIa 0.16; for prothrombin 0.008; for MTHFR 0.33; for ACE 0.52; and for angiotensinogen 0.36. Comparable frequencies were observed in the blood donors. Subgroup analysis of men and women separately gave similar results. The genotype frequencies in the centenarians and the blood donors were similar for all polymorphisms, and this study suggests that common variations in genes associated with cardiovascular risk do not contribute significantly to longevity.

BACKGROUND

Oral estrogen use is associated with changes in plasma levels of many coagulation proteins.

OBJECTIVE

To gain more insight into the underlying mechanism of estrogen-induced changes in coagulation.

METHODS

Ovariectomized female mice were used to study the impact of oral 17α-ethinylestradiol (EE) on plasma coagulation, hepatic coagulation gene transcript levels, and dependence on estrogen receptor (ER) α and ERβ.

RESULTS

Ten days of oral EE treatment resulted in significantly reduced plasma activity levels of factor (F)VIII, FXII, combined FII/FVII/FX and antithrombin, whereas FIX activity significantly increased. Regarding hepatic transcript levels, oral EE caused significant decreases in fibrinogen-γ, FII, FV, FVII, FX, FXII, antithrombin, protein C, protein Z, protein Z inhibitor and heparin cofactor II mRNA levels, whereas FXI levels significantly increased and transcript levels of FVIII, FIX, protein S and α(2) -antiplasmin remained unaffected. All EE-induced coagulation-related changes were neutralized by coadministration of the non-specific ER antagonist ICI182780. In addition, ERα-deficient mice lacked the EE-induced changes in plasma coagulation and hepatic transcript profile, whereas ERβ-deficient mice responded similarly to non-deficient littermate controls. A crucial role for the ER was further demonstrated by its rapid effects on transcription, within 2.5-5 h after EE administration, suggesting a short chain of events leading to its final effects.

CONCLUSIONS

Oral EE administration has a broad impact on the mouse coagulation profile at the level of both plasma and hepatic mRNA levels. The effects on transcription are rapidly induced, mostly downregulatory, and principally mediated by ERα.

Increased plasma plasminogen activator inhibitor type 1 (PAI-1), coagulation factor VII (FVII) and fibrinogen levels have been recognized as risk factors for cardiovascular disease. Because a substantially high incidence of cardiovascular disease has been reported in diabetic patients with nephropathy compared with those without nephropathy, we measured plasma levels of PAI-1, FVII activity and fibrinogen in non-insulin-dependent diabetic patients (NIDDM) with normoalbuminuria (without nephropathy), microalbuminuria (incipient nephropathy) and macroalbuminuria (overt nephropathy). PAI-1 and FVII levels were significantly increased in NIDDM with overt nephropathy compared with NIDDM without nephropathy. Fibrinogen levels were comparable between the patients with normo-, micro- and macro-albuminuria. Univariate regression analysis indicated that PAI-1 and FVII levels were significantly correlated with the albumin excretion rate (AER) in urine. PAI-1, FVII and fibrinogen levels were significantly correlated with the degree of insulin resistance estimated by the steady state plasma glucose concentration (SSPG) during the continuous infusion of glucose, insulin and octreotide. PAI-1 levels were correlated with plasma triglyceride (TG) levels. Multiple regression analysis revealed that AER was significantly associated with PAI-1 and FVII levels, whereas TG lost significant correlation with PAI-1 when AER, SSPG and plasma TG were entered as independent variables. SSPG retained an independent correlation with fibrinogen, PAI-1 and FVII levels. These results suggest that elevated plasma levels of PAI-1 and FVII in NIDDM patients with nephropathy are directly associated with renal damage, whereas insulin resistance widely regulates hemostatic components in NIDDM patients, irrespective of the presence of nephropathy.

OBJECTIVE

Intracerebral hemorrhage (ICH) is the most serious bleeding complication of vitamin K antagonist (VKA) therapy, carrying a high mortality. Rapid reversal of VKA in ICH is critical. Plasma therapy, the standard of care in the US, is not optimal. The ideal prothrombin complex concentrate (PCC) containing all vitamin K-dependent factors (VKDFs) is not available in the US. Therefore, the authors developed a Trauma Coumadin Protocol (TCP) consisting of a 3-factor PCC available in the US (which contains insufficient factor VII [FVII]) with a low-dose recombinant FVIIa to rapidly reverse VKA.

METHODS

Forty-six patients treated with the TCP were retrospectively analyzed. Fourteen patients had pre- and post-TCP plasma samples collected to assess their VKDF increment. Eleven patients had measurable intraparenchymal hematomas, which were evaluated for expansion.

RESULTS

The mean pre- and post-TCP international normalized ratios (INRs) were 3.4 (median 2.9) and 1.0 (median 0.9), respectively. Once corrected, INR was maintained at < 1.3 during a patient's hospital stay. The pre-TCP median values of FII, FVII, FIX, and FX were 28%, 21%, 45%, and 20%, respectively; post-TCP median values increased to 144%, 417%, 102%, and 143%, respectively. Four of the 11 patients with measurable intraparenchymal hemorrhage had expansion at 24 hours after TCP. One patient probably (8 hours post-TCP) and 1 patient possibly (3 days post-TCP) had thrombotic complications.

CONCLUSIONS

The TCP was very effective in rapidly reversing VKA-associated coagulopathy; however, this protocol should be used cautiously in patients at high risk for thrombosis.

BACKGROUND

Uterine serous papillary adenocarcinoma (USPC) is a highly aggressive variant of endometrial cancer. Human immuno-conjugate molecule (hI-con1) is an antibody-like molecule targeted against tissue factor (TF), composed of two human Factor VII (fVII) as the targeting domain, fused to human immunoglobulin (Ig) G1 Fc as an effector domain. We evaluated hI-con1 potential activity against primary chemotherapy-resistant USPC cell lines expressing different levels of TF.

METHODS

A total of 16 formalin-fixed, paraffin-embedded USPC samples were evaluated by immunohistochemistry (IHC) for TF expression. Six primary USPC cell lines, half of which overexpress the epidermal growth factor type II (HER2/neu) receptor at 3+ levels, were assessed by flow cytometry and real-time PCR for TF expression. Sensitivity to hI-con1-dependent cell-mediated cytotoxicity (IDCC) was evaluated in 5-hour-chromium release assays. Finally, to investigate the effect of interleukin-2 (IL-2) on IDCC, 5-h (51)Cr assays were also conducted in the presence of low doses of IL-2 (i.e., 50-100 IU ml(-1)).

RESULTS

Cytoplasmic and/or membrane TF expression was observed in all 16 (100%) USPC samples tested by IHC, but not in normal endometrium. High expression of TF was found in 50% (three out of six) of the USPC cell lines tested by real-time PCR and flow cytometry when compared with normal endometrial cells (NECs; P<0.001). Uterine serous papillary adenocarcinoma cell lines overexpressing TF, regardless of their high or low HER2/neu expression, were highly sensitive to IDCC (mean killing+/-s.d., 65.6+/-3.7%, range 57.5-77.0%, P<0.001), although negligible cytotoxicity against USPC was seen in the absence of hI-con1 or in the presence of Rituximab control antibody. The addition of low doses of IL-2 further increased the cytotoxic effect induced by hI-con1 against chemotherapy-resistant USPC.

CONCLUSIONS

hI-con1 induces strong cytotoxicity against primary chemotherapy-resistant USPC cell lines overexpressing TF. The hI-con1 may represent a novel therapeutic agent for the treatment of patients harbouring advanced, recurrent and/or metastatic USPC refractory to standard treatment modalities.

Factor VIIa (FVIIa) is a key serine protease involved in the initiation of the coagulation cascade. It is a glycosylated disulfide-linked heterodimer comprised of an amino-terminal gamma-carboxyglutamic acid-rich (Gla) domain and two epidermal growth factor (EGF)-like domains in the light chain, and a chymotrypsin-like serine protease domain in the heavy chain. FVIIa requires tissue factor (TF), a membrane bound protein, as an essential cofactor for maximal activity towards its biological substrates Factor X, Factor IX and Factor VII (FVII). Inhibition of TF.FVIIa activity may prevent the formation of fibrin clots and thus be useful in the management of thrombotic disease. The development of TF.FVIIa inhibitors to validate this target has been of great interest. A wide array of strategic approaches to inhibiting the biochemical and biological functions of the TF.FVIIa complex has been pursued. This has been greatly aided from our understanding of the structures for TF, FVII, FVIIa, and the TF.FVIIa complex. These approaches have resulted in inhibitors directed specifically towards either FVIIa or TF. Antagonists include active site inhibited FVIIa, TF mutants, anti-TF antibodies, anti-FVII/FVIIa antibodies, naturally-occurring protein inhibitors, peptide exosite inhibitors, and protein and small molecule active site inhibitors. These antagonists can inhibit catalysis directly at the active site as well as impair function by binding to exosites that may interfere with substrate, membrane, or cofactor binding. The rationale of TF.FVIIa as a target and the development, characteristics and biological uses of TF.FVIIa inhibitors are discussed.

Insulin resistance is found in around 80-90% of subjects with older onset (type 2) diabetes and in approximately 25% of the general population. Insulin resistance prior to the development of frank type 2 diabetes and type 2 diabetes itself is associated with a significant increase in the risk of atherothrombotic disease, which is due in part to a disruption in the balance of factors regulating coagulation and fibrinolysis. Both insulin resistance and type 2 diabetes are associated with the development of endothelial dysfunction, and enhanced platelet aggregation and activation. Whilst the plasma levels of many clotting factors including fibrinogen, FVII, FVIII, FXII, FXIII b-subunit are elevated, the fibrinolytic system is relatively inhibited as a consequence of an increase in plasminogen activator inhibitor type-1 (PAI-1) levels. These changes favour the development of a hypercoagulable pro-thrombotic state, which may in turn enhance cardiovascular risk by increasing the likelihood of developing an occlusive thrombus within a coronary/cerebral artery, and/or contributing to the development of atherosclerotic lesions. This article reviews the current published evidence of the pro-thrombotic changes that occur in association with type 2 diabetes and insulin resistance, and the putative underlying mechanisms which lead to these changes.

Vascular injury-induced access of blood to tissue factor (TF) leads to the formation of a TF-FVII/FVIIa complex and the triggering of blood coagulation. The activated TF-dependent pathway is regulated by Tissue Factor Pathway Inhibitor (TFPI), which binds and inhibits FXa, but more importantly forms an inactive quaternary complex with TF-FVIIa-FXa, effectively shutting off the TF activity. The old view of TF residing in extravascular sites exclusively has recently been challenged by several reports on TF expression in various blood cells. The latter arena has unfortunately been marred by many contradictions, apparently related to inferior tools and/or study design, notably the widespread use of antibodies with inferior and misleading specificity and TF activity assays of low sensitivity/specificity. Our own studies along with many other reports, compels the conclusion that in blood of healthy individuals TF is exclusively associated with and expressed in circulating monocytes. In this short review the distribution of TF and TFPI in blood is discussed.