Previous studies demonstrated that endothelial cells participate actively in both anticoagulant and procoagulant reactions. Although anticoagulant mechanisms predominate on the surface of quiescent endothelial cells, perturbed endothelial cells can promote coagulation through the coordinated induction of procoagulant activity and suppression of anticoagulant mechanisms. Purified recombinant interleukin 1 was infused intravenously into rabbits and coagulant properties of the native aortic endothelium were subsequently studied. Interleukin 1 infusion resulted in a time- and dose-dependent induction of the procoagulant cofactor tissue factor, while concomitantly blocking the protein C anticoagulant pathway. Tissue factor activity increased greater than 10-fold by 3-5 hr after the infusion, while endothelial cell-dependent thrombin-mediated protein C activation decreased by 72% and assembly of functional activated protein C-protein S complex on the vessel surface was decreased by greater than 90%. Scanning electron microscopy of major arteries demonstrated fibrin strands closely associated with the luminal endothelial cell surface with a predilection for bifurcations. Interleukin 1, a mediator of the inflammatory response, can shift the balance of procoagulant and anticoagulant reactions on the endothelium unidirectionally favoring clot formation. The surface of perturbed endothelium can thus provide a template, facilitating the development of a prethrombotic state, and provides a model for the early stages of thrombosis.
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