Arterial thrombosis is considered to arise from the interaction of tissue factor (TF) in the vascular wall with platelets and coagulation factors in circulating blood. According to this paradigm, coagulation is initiated after a vessel is damaged and blood is exposed to vessel-wall TF. We have examined thrombus formation on pig arterial media (which contains no stainable TF) and on collagen-coated glass slides (which are devoid of TF) exposed to f lowing native human blood. In both systems the thrombi that formed during a 5-min perfusion stained intensely for TF, much of which was not associated with cells. Antibodies against TF caused Ϸ70% reduction in the amount of thrombus formed on the pig arterial media and also reduced thrombi on the collagencoated glass slides. TF deposited on the slides was active, as there was abundant fibrin in the thrombi. Factor VII ai , a potent inhibitor of TF, essentially abolished fibrin production and markedly reduced the mass of the thrombi. Immunoelectron microscopy revealed TF-positive membrane vesicles that we frequently observed in large clusters near the surface of platelets. TF, measured by factor X a formation, was extracted from whole blood and plasma of healthy subjects. By using immunostaining, TF-containing neutrophils and monocytes were identified in peripheral blood; our data raise the possibility that leukocytes are the main source of blood TF. We suggest that blood-borne TF is inherently thrombogenic and may be involved in thrombus propagation at the site of vascular injury.Tissue factor (TF) present in the arterial wall has been considered to be responsible for the initiation of the coagulation cascade and thrombus formation (1). The role of vascular TF in acute thrombosis and atherosclerosis has been proposed based on our previous studies (2-5). To investigate the role of circulating TF in thrombogenesis, we have used a system in which pig aortic media or collagen-coated slides were mounted in a laminar flow chamber and perfused with native human blood. We noted that when stained either with derivatized factor VII a (FVII a ) or with specific anti-TF antibodies, the thrombi contained large amounts of TF staining, whereas the media and collagen-coated slides were essentially negative. Thus, we surmised that the TF came from the blood; accordingly, we examined whole blood and plasma for TF activity that we have extracted and assayed. We conclude that there is circulating, potentially active TF in normal subjects. We present evidence that this pool is thrombogenic in model flow systems. We also present evidence suggesting the TF comes from leukocytes and hypothesize that the cell-surface TF is completely encrypted (6-8) but becomes available during thrombosis. METHODSReagents. Human recombinant FVII a was a gift from NovoNordisk, Copenhagen. Factor X was purified from human plasma (9). Affigel-15 was purchased from Bio-Rad. The phospholipids used for relipidation of TF consisted of 30% 1,2-dioleoyl-sn-glycero-3-phosphatidylserine and 70% 1,2-dioleoyl-sn-gl...
We describe thrombogenic tissue factor (TF) on leukocyte-derived microparticles and their incorporation into spontaneous human thrombi. Polymorphonuclear leukocytes and monocytes transfer TF+particles to platelets, thereby making them capable of triggering and propagating thrombosis. This phenomenon calls into question the original dogma that vessel wall injury and exposure of TF within the vasculature to blood is sufficient for the occurrence of arterial thrombosis. The transfer of TF+ leukocyte-derived particles is dependent on the interaction of CD15 and TF with platelets. Both the inhibition of TF transfer to platelets by antagonizing the interaction CD15 with P-selectin and the direct interaction of TF itself suggest a novel therapeutic approach to prevent thrombosis.
SummaryInhibition of the tissue factor/factor Vila (TF/F. Vila) complex attenuates thrombosis in different animal models of arterial thrombosis. However, it remains unclear to what extent the antithrombotic effects are associated with changes in hemostatic functions and how this compares with inhibition of thrombin, an enzyme acting at a later stage in the coagulation cascade. The antithrombotic and the antihemostatic effects of a monoclonal anti-TF antibody (AP-1) were compared in a model of arterial thrombosis to those of a direct thrombin inhibitor (napsagatran) and heparin. In anesthetized rabbits transient arterial thrombi were induced by mechanical damage to the subendothelium of a moderately stenosed carotid artery. Recurrent formation and dis lodgement of thrombi resulted in cyclic flow variations (CFVs) which were monitored over 2 hours. Rabbits received intravenously either a placebo (control), a monoclonal anti-rabbit TF antibody (AP-1, 05 mg/kg as an i.v. bolus repeated every 15 min, a specific low molecular weight thrombin inhibitor (napsagatran, 3 fxg/kg/min) or heparin (3 and 13 fig/kg/min). The effect of the inhibitors on the hemostatic system was studied in a separate set of rabbits by measuring template bleeding times (BT) in the ear arterioles, marginal ear vein and the nail cuticle of the foreleg. AP-1 and napsagatran showed a similar antithrombotic activity (78% and 80% abolition of the CFVs, respectively), whereas either low or high dose heparin was poorly effective (43 % and 40% inhibition of CFVs, respectively). At these antithrombotic doses and even at 4-fold higher dosage, AP-1 did not significantly alter the BT, whereas napsagatran and heparin prolonged the ear vessels and cuticle BT in a dose-dependent manner. These results suggest that in contrast to direct thrombin inhibition, the blockade of the TF/F. Vila function did not result in a concomitant prolongation of the bleeding time. Thus, dissociation of antithrombotic and antihemostatic effects indicates that inhibition of the coagulation system at its initial stage represents a promising approach for the development of new anticoagulants.
Summary. Antibody mediated inhibition of tissue factor (TF) function reduces thrombus size in ex vivo perfusion of human blood over a TF-free surface at venous shear rates suggesting that TF might be involved in the mechanism of deep vein thrombosis. Moreover, TF-bearing monocytes and polymorphonuclear (PMN) leukocytes were identified in human ex vivo formed thrombi and in circulating blood. To understand the role of TF in thrombus growth, we applied a rabbit venous thrombosis model in which a collagen-coated thread was installed within the jugular vein or within a silicon vein shunt. The effect of an inhibitory monoclonal antirabbit TF antibody (AP-1) or Napsagatran, a specific inhibitor of thrombin, was quantified by continuously monitoring 125 I-fibrinogen incorporation into the growing thrombi. The antithrombotic effect obtained with the anti-TF antibody was comparable to the effect observed with the thrombin inhibitor napsagatran suggesting that in this animal model the thrombus propagation is highly TF dependent. Immunostaining revealed that TF was mostly associated with leukocytes within the thrombi formed in the jugular vein or in the silicon vein shunt. Ex vivo perfusion experiments over collagen-coated coverslips demonstrated the presence of TFbearing PMN leukocytes in circulating blood. The results suggest that in rabbits venous thrombus growth is mediated by clot-bound TF and that blocking the TF activity can inhibit thrombus propagation.
New orally active non-terpenoic inhibitors of human 2,3-oxidosqualene cyclase (hOSC) are reported. The starting point for the optimization process was a set of compounds derived from a fungicide project, which in addition to showing high affinity for OSC from Candida albicans showed also high affinity for human OSC. Common structural elements of these inhibitors are an amine residue and an electrophilic carbonyl C atom embedded in a benzophenone system, which are at a distance of about 10.7 A. Considering that the keto moiety is in a potentially labile position, modifications of the substitution pattern at the benzophenone as well as annelated heteroaryl systems were explored. Our approach combined testing of the compounds first for increased binding affinity and for increased stability in vitro. Most promising compounds were then evaluated for their efficacy in lowering plasma total cholesterol (TC) and plasma low-density lipoprotein cholesterol (LDL-C) in hyperlipidemic hamsters. In this respect, the most promising compounds are the benzophenone derivative 1.fumarate and the benzo[d]isothiazol 24.fumarate, which lowered TC by 40% and 33%, respectively.
We describe thrombogenic tissue factor (TF) on leukocyte-derived microparticles and their incorporation into spontaneous human thrombi. Polymorphonuclear leukocytes and monocytes transfer TF+particles to platelets, thereby making them capable of triggering and propagating thrombosis. This phenomenon calls into question the original dogma that vessel wall injury and exposure of TF within the vasculature to blood is sufficient for the occurrence of arterial thrombosis. The transfer of TF+ leukocyte-derived particles is dependent on the interaction of CD15 and TF with platelets. Both the inhibition of TF transfer to platelets by antagonizing the interaction CD15 with P-selectin and the direct interaction of TF itself suggest a novel therapeutic approach to prevent thrombosis.
Traditional setups for in situ MR investigation of skeletal muscle function in animals use invasive systems for muscle stimulation and force measurement. These systems require surgical preparation and therefore exclude repetitive investigations on the same animal. This article describes a new experimental setup allowing strictly noninvasive MR investigations of muscle function in contracting rat gastrocnemius muscle using MR has proven its ability to investigate skeletal muscle function in situ. 31 P-Magnetic resonance spectroscopy ( 31 P-MRS) has been widely used to characterize muscle energy metabolism. It can measure intracellular pH and the concentration of the major phosphorylated compounds in contracting muscle with a time resolution of less than a second (1,2). These measurements may be used to quantify energy production of the different metabolic pathways, i.e., phosphocreatine (PCr) degradation, anaerobic glycolysis, and mitochondrial phosphorylation (3), as long as force output is recorded simultaneously with 31 P-MRS acquisition.
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