Acute release of tissue factor pathway inhibitor after in vivo thrombin generation in baboons

Tissue factor pathway inhibitor (TFPI), the major downregulator of the procoagulant activity of tissue factor (TF), is synthesised by endothelial cells (EC) and acutely released in vitro after thrombin stimulation. Expression of TF on EC and subsequent thrombin generation occurs in vivo during sepsis or malignancy, inducing disseminated intravascular coagulation (DIC). The present study investigates the changes in plasma TFPI in relation to markers of in vivo thrombin generation induced by injection of factor Xa (FXa)/phospholipids in baboons at dosages leading to partial (48%) or complete fibrinogen depletion. The plasma concentrations of thrombin-antithrombin III (TAT) and fibrinopeptide A (FpA), as markers of in vivo generation of thrombin, were strongly enhanced after injection of FXa/phospholipids. TFPI levels, whether measured as antigen or activity, increased significantly in both treatment groups within few minutes, and were dependent on the dose of FXa/phospholipids. Significant positive correlations between plasma levels of TFPI and of TAT or FpA were observed. Altogether, our results indicate that experimentally induced in vivo generation of thrombin causes the acute release of TFPI, high-lighting a possible novel function of thrombin in downregulation of the coagulation process, potentially relevant for the outcome of DIC.     

Tissue factor pathway inhibitor on circulating microparticles in acute myocardial infarction

In acute myocardial infarction (AMI), increased Tissue Factor (TF) expression on circulating monocytes and microparticles (MP) may contribute to thrombotic events. Because surfacebound Tissue Factor Pathway Inhibitor-1 (TFPI) inhibits TF activity on monocytes and endothelial cells decreased TFPI expression may reinforce the procoagulant activity of circulating MP. Aim of the study was to analyze TFPI expression and TF activity after stenting and thrombolysis inAMI. Thirty-nine patients of a randomized study comparing intravenous thrombolysis (n=19) and stenting (n=20) were included. Before and after therapy blood samples for analysis of MPs, TF antigen and activity, prothrombin fragment F1+2 and D-dimer were obtained. TFPI expression on TF positive MPs was decreased after thrombolysis but not after stenting. In contrast, TF plasma levels and TF positive MP remained unchanged in both treatment groups. After thrombolysis increased D-dimer and F1+2 plasma concentrations indicated activation of fibrinolysis and coagulation. Significance of MPTFPI for inhibition of TF activity was measured using inhibitory TFPI antibodies. Membrane-associated TFPI inhibited TF activity on circulating MPs. After thrombolysis inhibition of TF activity by TFPI was decreased as compared to stenting. Correlation of circulating TF with F1+2 only after thrombolysis, suggests a role for TF-induced activation of coagulation after thrombolysis. Enhanced TF activity on circulating MPs in AMI is inhibited by endogenous surface-boundTFPI. After thrombolysis but not after stenting MPTFPI is degraded and may induce thrombin generation due to unopposed tissue factor activity. Anti-TF therapies during thrombolysis may reduce thrombin generation in AMI.     

RECOMBINANT HUMAN TISSUE FACTOR PATHWAY INHIBITOR AS A POSSIBLE ANTICOAGULANT TARGETING HEPATIC SINUSOIDAL WALLS

The expression of tissue factor pathway inhibitor (TFPI) was investigated in sinusoidal endothelial cells in the liver and endothelial cells in the lung. Northern blot analysis revealed that TFPI mRNA was expressed in the lung, but minimal in the liver. Also, immunohistochemical examination showed that TFPI was not expressed on the sinusoidal endothelial cells in contrast to marked expression on endothelial cells in the lung, suggesting that anticoagulant activity to inhibit blood coagulation induced by tissue factor is reduced in the hepatic sinusoids compared to the microvessels of other organs. When recombinant human TFPI was intravenously injected in rats, it disappeared rapidly from the circulation, but was detected by electron microscopy on the surface of sinusoidal endothelial cells and microvilli of hepatocytes in the space of Disse. In these rats, the TFPI reappeared in the circulation following an intravenous injection of heparin sodium with reduced immunohistochemical staining of the TFPI on hepatic sinusoidal walls. It is concluded that exogenous TFPI can increase anticoagulant activity on the hepatic sinusoidal walls by binding to heparinoids on the cell surface. It may act effectively even in the hepatic sinusoids with damaged endothelial cells. © 1997 Elsevier Science Ltd     

Expression of tissue factor and tissue factor pathway inhibitor in situ in laryngeal carcinoma

The blood coagulation mechanism may support tumor progression by several mechanisms including promotion of cell proliferation and angiogenesis. Immunohistochemical procedures were applied to AMeX-fixed sections of twelve cases of squamous cell carcinoma of the larynx obtained at surgical resection to determine the presence and distribution of tissue factor (TF), tissue factor pathway inhibitor (TFPI), other coagulation factors, fibrinogen, and fibrin in situ. TF antigen was present in normal squamous epithelial cells and tumor cells, predominantly in immature tumor cells in the vicinity of the host-tumor interface. Tumor cells stained also for factors VII and X. Staining for TFPI antigen was demonstrated in the connective tissue stroma adjacent to the tumor, in microvascular endothelial cells, and in normal squamous epithelial cells. Fibrinogen and factor XIIIa were distributed throughout the tumor connective tissue stroma. Fibrin (thrombin-cleaved fibrinogen) was detected at the host-tumor interface and along the margins of tumor nodules. Tumor cells in carcinoma of the larynx express a functional, TF-initiated pathway of blood coagulation. Interpretation of these findings together with the results of clinical trials of inhibitors of TF-induced coagulation activation versus effects of inhibitors of TF expression suggest novel approaches to the experimental therapy of laryngeal carcinoma.     

Heparanase procoagulant activity

Heparanase that was cloned from and is abundant in the placenta is implicated in cell invasion, tumor metastasis and angiogenesis. We have recently demonstrated that heparanase may also affect the hemostatic system in a non-enzymatic manner. Heparanase was shown to up-regulate tissue factor (TF) expression and interact with tissue factor pathway inhibitor (TFPI) on cell surface, leading to dissociation of TFPI from cell membrane of endothelial and tumor cells, resulting in increased cell surface coagulation activity. We have lately shown that heparanase directly enhances TF activity resulting in increased factor Xa production and activation of the coagulation system. Data indicate increased plasma levels of heparanase suggesting its possible involvement in pregnancy vascular complications. Elevation in heparanase levels and procoagulant activity was also documented in orthopedic surgery patients receiving prophylactic doses of enoxaparin. Taking into account the pro-metastatic and pro-angiogenic functions of heparanase, with over-expression in human malignancies and abundance in platelets and placenta, its involvement in the coagulation machinery is an intriguing novel platform for further research.     

Tissue factor activity is upregulated in human endothelial cells exposed to oscillatory shear stress

Hemodynamic forces play a critical role in the pathogenesis of atherosclerosis as evidenced by the focal nature of the disease. Oscillatory shear stress characterizes the hemodynamic environment of plaque-prone areas as opposed to unidirectional shear stress typical of plaque-free areas. These particular flow conditions modulate atherosclerosis-related genes. Tissue factor (TF) initiates blood coagulation, contributes to vascular remodeling, and is therefore a potential contributor in the development/progression of atherosclerosis. We investigated the effect of oscillatory and unidirectional flows on TF using an in vitro perfusion system. Human endothelial cells exposed for 24 h to oscillatory shear stress, significantly increased TF mRNA, and TF protein expression (1.5- and 1.75-fold, respectively, p < 0.01), and surface TF activity (twofolds-increase). Expression of TF inhibitor (TFPI), mRNA and protein, remained unchanged as compared to static conditions. Conversely, cells exposed to unidirectional shear, showed a decrease in TF activity with a significant increase in TFPI mRNA and protein expression (1.5- and 1.8-fold, respectively, p < 0.01). These results show for the first time that pulsatile oscillatory shear stress induces a pro-coagulant phenotype of endothelial cells which may favor formation/progression of atherothrombotic lesions.     

Down-regulation of murine tissue factor pathway inhibitor mRNA by endotoxin and tumor necrosis factor-alpha in vitro and in vivo

Tissue factor pathway inhibitor (TFPI) is the protease inhibitor that regulates the extrinsic coagulation pathway initiated by the factor VIIa/TF complex. In this study, we first investigated tissue distribution of TFPI mRNA in the mouse and found that TFPI mRNA expression level was by far the highest in the lung, followed by the heart, adrenal, and adipose tissue. Since little has been known concerning the regulation of TFPI gene expression in vivo, we further analyzed the changes in the TFPI mRNA level in murine tissues after intraperitoneal injection of lipopolysaccharide (LPS), tumor necrosis factor-alpha (TNF-alpha), and interleukin-1 (IL-1). LPS and TNF-alpha dramatically decreased TFPI mRNA expression in four tissues examined (e.g., lung, heart, kidney, and adipose tissue), whereas the suppressive effect of IL-1 on TFPI mRNA was limited. The down-regulation of TFPI mRNA expression by LPS and TNF-alpha was also observed in cultured mouse endothelial cells and in cardiomyocyte cell lines. The decreased TFPI mRNA expression by LPS and TNF-alpha in tissues and in the specific cell types may contribute to an increase in the local procoagulant potential, resulting in the thrombotic tendency under septic and/or inflammatory conditions.     

Tissue factor reduction and tissue factor pathway inhibitor release after heparin administration

Elevated plasma levels of tissue factor (TF) and tissue factor pathway inhibitor (TFPI) and large amounts of monocyte procoagulant activity (PCA) have been documented in unstable angina (UA) patients. In in vitro experiments heparin is able to blunt monocyte TF production by inhibiting TF and cytokine gene expression by stimulated cells and after in vivo administration it reduces adverse ischemic outcomes in UA patients. TF and TFPI plasma levels and monocyte PCA have been investigated in 28 refractory UA patients before and during anticoagulant subcutaneous heparin administration (thrice daily weight- and PTT-adjusted for 3 days) followed by 5000 IU X 3 for 5 days. After 2-day treatment, immediately prior to the heparin injection, TF and TFPI plasma levels [(median and range): 239 pg/ml, 130-385 pg/ ml and 120 ng/ml, 80-287 ng/ml] were lower in comparison to baseline samples (254.5 pg/ml, 134.6-380 pg/ml and 135.5 ng/ml, 74-306 ng/ml). Four h after the heparin injection TF furtherly decreased (176.5 pg/ml, 87.5-321 pg/ml; -32.5%. p<0.001) and TFPI increased (240.5 ng/ml, 140-450 ng/ml; +67%, p<0.0001). After 7-day treatment, before the injection of heparin, TF and TFPI plasma levels (200 pg/ml, 128-325 pg/ml and 115 ng/ml, 70-252 ng/ml) significantly decreased (p<0.05) in comparison to the pre-treatment values. On the morning of the 8th day, 4 h after the injection of heparin TF plasma levels and monocytes PCA significantly decreased (156.5 pg/ml, 74-259 pg/ml and from 180 U/105 monocytes, 109-582 U/10(5) monocytes to 86.1 U/10(5) monocytes, 28-320 U/10(5) monocytes; - 38% and -55% respectively) and TFPI increased (235.6 ng/ml, 152-423 ng/ ml; +70%, p<0.001). In conclusion, heparin treatment is associated with a decrease of high TF plasma levels and monocyte procoagulant activity in UA patients. These actions of heparin may play a role in determining the antithrombotic and antiinflammatory properties of this drug.     

Suppression of HUVEC tissue factor synthesis by antisense oligodeoxynucleotide

Tissue factor (TF) is an important regulator and effector molecule of coagulation. It is primary known as a cofactor for factor VIIa-mediated triggering of blood coagulation, which proceeds in a cascade of extracellular reactions, ultimately resulting in thrombin formation. In sepsis, expression of TF by activated monocytes, macrophages and endothelial cells may lead to disseminated intravascular coagulation. Further studies have suggested that TF also plays non-haemostatic roles in blood vessel development, tumor angiogenesis, metastasis and inflammation. In the present study we examined the feasibility of inhibiting lipopolysaccharide (LPS)-induced TF expression in cultured human umbilical vein endothelial cells (HUVECs) using a modified phosphorothioate antisense oligodeoxynucleotide targeted to the TF mRNA. CD31 receptor-mediated endocytosis was used as a means of delivering TF antisense oligomer to HUVECs. This DNA carrier system consists of anti-CD31 antibody conjugated to the antisense. Co-exposure of HUVECs with TF antisense and LPS resulted in 54.6 ± 3.2% suppression of TF activity when compared with control LPS stimulated cells. The antisense also reduced the LPS-induced TF mRNA level. Control experiments with TF sense and mismatched antisense oligomers were performed to exclude non-specific inhibitory effects. The cytotoxicity of the antisense oligomer conjugate was also evaluated. Results demonstrate that this TF antisense oligomer specifically suppressed the synthesis of biologically active endothelial TF and that antisense oligomers might represent a useful tool in the investigation of endothelial TF function/biology.     

Production of tissue factor pathway inhibitor in cardiomyocytes and its upregulation by interleukin-1

Tissue factor pathway inhibitor (TFPI) is a protease inhibitor that regulates tissue factor (TF)--initiated coagulation. We report here that cardiomyocytes express TFPI and the expression could be increased by Interleukin-1(IL-1beta). The TFPI expression in cardiomyocytes was confirmed by Northern blotting with rat cardiomyocytes and also by immunostaining with anti-TFPI antibody on human heart specimens from patients either with sarcoidosis, myocarditis or myocardial infarction. The regulation of TFPI expression in cardiomyocytes differs from that in endothelial cells because TFPI expression is not induced in human endothelial cells by IL-1beta.     

Bemiparin and fluid flow modulate the expression, activity and release of tissue factor pathway inhibitor in human endothelial cells in vitro.

We investigated the localisation, gene expression, and activity of tissue factor pathway inhibitor (TFPI) in endothelial cells (EC) grown in static conditions or under shear stress, in the presence of unfractionated heparin (UFH) and two low-molecular-weight heparins (LMWHs). dalteparin and bemiparin (a second generation of LMWHs). All three preparations induced increased release, cellular redistribution, and enhanced activity of TFPI on the cell surface in static EC. In EC grown under shear stress (0.27, 4.1 and 19 dyne/cm2) and incubated with each heparin for 24 h, the release of TFPI was significantly correlated with the level of flow for bemiparin and dalteparin, but not for UFH. For all three levels of flow tested, bemiparin induced the highest secretion and increase of both cellular TFPI and cell surface activity of the inhibitor. The expression of TFPI mRNA, determined by Northern blotting, was specifically modulated by heparins. All three preparations increased the expression of TFPI by 60 to 120% in EC under minimal flow, but only bemiparin enhanced TFPI mRNA in EC under the arterial flow. Immunogold electron microscopy revealed that EC exhibited strong cellular labelling for TFPI when grown under arterial flow in the presence of bemiparin. We conclude that in EC subjected to shear stress in vitro bemiparin is more efficient than UFH or dalteparin in modulating the expression. release and activity of TFPI. We therefore suggest that bemiparin may be superior over the conventional heparins in maintaining the anticoagulant properties of the endothelium.     

Monocyte tissue factor response is decreased in patients with hyperlipidemia

Monocytes are potent regulators of blood coagulation through the expression of tissue factor (TF) on stimulation and of tissue factor pathway inhibitor (TFPI), a selective inhibitor of TF pathway. As hyperlipidemia can modify some monocyte functions, we compared the TF and TFPI expression by circulating monocytes and the plasma TFPI levels between 65 healthy normolipemic controls and 38 nontreated hyperlipemic patients. TF and TFPI relationships with plasma lipoproteins are also examined. TF and TFPI expression were evaluated in peripheral mononuclear cells after isolation from blood by density gradient centrifugation and after short culture with or without lipopolysaccharide (LPS). TF and TFPI activity and antigen were measured in mononuclear cell lysates using amidolytic assay and enzyme-linked immunosorbent assay, respectively. TFPI activity and antigen were measured in plasma using the same methods. Plasma factor VII (FVII) activity and antigen were also determined. LPS-stimulated monocyte TF activity and antigen were lower in hyperlipidemic patients than in controls (0.0001相似文献   

Thrombin activation of endometrial endothelial cells: a possible role in intrauterine growth restriction

Preeclampsia (PE), intrauterine growth restriction (IUGR) and abruption with or without fetal loss are associated with reduced uteroplacental blood flow, decidual vasculopathy, endothelial cell dysfunction, thrombosis, inflammation and hemorrhage. Our hypothesis is that reduced uteroplacental blood flow causes focal decidual hypoxia that generates vascular endothelial growth factor (VEGF). The latter acts directly on decidual endothelial cells to induce aberrant expression of tissue factor (TF), the primary initiator of coagulation. This in turn generates thrombin that induces: i) further TF expression; and ii) inflammatory cytokines. Both VEGF and TF induce aberrant angiogenesis-vessel maintenance reflected by endothelial cell fenestrations and induction of a prothrombotic surface causing both the decidual hemorrhage (i.e. abruption) and thrombosis (i.e. uteroplacental vascular insufficiency) observed in these adverse pregnancy outcomes. This novel hypothesis is supported by our finding of TF expression in decidual endothelium of pregnancies complicated by IUGR and/or fetal loss. Moreover, treatment of cultured endometrial endothelial cells with VEGF or thrombin induces TF protein and mRNA expression. Quantitative RT-PCR analysis indicates that thrombin enhances (>10-fold) the output of diverse inflammatory cytokines in these cultures. The greatest effect (>2-log) was seen on macrophage inflammatory protein 3alpha (MIP3alpha). In vitro, thrombin results in endometrial endothelial cell aggregations and changes in the apoptotic pathway. Thus, we postulate that reductions in uteroplacental flow initiate a cascade of molecular effects leading to hypoxia, thrombosis, inflammation, and endothelial cell dysfunction resulting in untoward pregnancy outcomes.