Physiopathological significance of catalytic phospholipids in the generation of thrombin.

Thrombin generation is the culminating event of the coagulation cascade. It is initiated after the expression of tissue factor by endothelial cells and monocytes exposed to thrombogenic stimuli. Anionic phospholipids, chiefly phosphatidylserine, are necessary for the optimal activity of tissue factor and completion of the clotting process. They display a catalytic potential by allowing the formation of the characteristic enzyme complexes at the membrane surface. Platelets are viewed as the main source of procoagulant phospholipid referred to as platelet factor 3. The plasma membrane of resting cells presents an asymmetrical distribution of phospholipids, aminophospholipids being sequestered in the inner leaflet. Procoagulant phospholipids become available at the outer surface after cell stimulation. The collapse of the membrane asymmetry is thought to promote a phospholipid scrambling accompanied by the shedding of microparticles. The plasma membranes of such vesicles bear irreversibly externalized procoagulant phosphatidylserine and contain glycoproteins that testify to their tissue origin. Hence, microparticles could disseminate a dual procoagulant and adhesive potential. Thrombin autoamplification is exerted through feedback activation loops involving either coagulation factors or platelets. This article details the mechanisms by which procoagulant phospholipids promote the generation of an excess of thrombin. A new pharmacological approach of thrombosis is presented, based on the control of the exposure of procoagulant phospholipids and membrane microparticle shedding.