Coagulation factor extrinsic pathway

Physiological coagulation (the extrinsic pathway) begins when tissue factor (TF, tissue thromboplastin), exposed by vascular injury, activates and complexes with factor VII to activate factors IX and X which complex with Villa and Va respectively on membrane surfaces (which provide phospholipid, PL). The Xa/Va complex converts prothrombin to thrombin which converts fibrinogen to fibrin and also activates factors XI, VIII, V and XIII, both accelerating coagulation and cross-linking fibrin (-F-F-F-). 

Extrinsic Pathway. Coagulation is initiated when tissue extracts with Hpid—protein properties are released from the membranes of endothehal cells following injury or insult. These substances, collectively designated tissue thromboplastin, complex with circulating Factor VII and in the presence of calcium ions subsequentiy activate Factor X (Fig. 1). In vitro evidence suggests that Factor X can be activated less rapidly through the interaction of kaUikrein [9001-01-8] with Factor VII. 

Figure 51-1. The pathways of blood coagulation. The intrinsic and extrinsic pathways are indicated. The events depicted below factor Xa are designated the final common pathway, culminating in the formation of cross-linked fibrin. New observations (dotted arrow) include the finding that complexes of tissue factor and factor Vila activate not only factor X (in the classic extrinsic pathway) but also factor IX in the intrinsic pathway, in addition, thrombin and factor Xa feedback-activate at the two sites indicated (dashed arrows). (PK, prekallikrein HK, HMW kininogen PL, phospholipids.) (Reproduced, with permission, from Roberts HR, Lozier JN New perspectives on the coagulation cascade. Hosp Pract [Off Ed] 1992Jan 27 97.)...

Two coagulation factors function uniquely in the extrinsic pathway factor III (tissue factor) and factor VII. Tissue factor is an integral membrane protein present in a wide variety of tissue types (particularly lung and brain). This protein is exposed to blood constituents only upon rupture of... 

Simultaneously, activation of the extrinsic coagulation cascade occurs as a result of exposure of blood to the thrombogenic lipid core and endothelium, which are rich in tissue factor. This pathway ultimately leads to the formation of a fibrin clot composed of fibrin strands, cross-linked platelets, and trapped red blood cells. 

Extrinsic pathway Coagulation is activated by release of tissue thromboplastin, a factor not found in circulating blood. Clotting occurs in seconds because factor III bypasses the early reactions. 

Extrinsic pathway This pathway has fewer steps than the intrinsic pathway and occurs rapidly, within a matter of seconds if the trauma is severe. It is called the extrinsic pathway because a protein tissue factor, also called thromboplastin or coagulation factor III, takes into the blood stream from outside and initiates the formation of prothrombinase. Tissue factor is released from the surface of the damaged cells. It activates factor VII. Factor VII combines with factor X, activating it. Factor X in the presence of Ca combines with factor V to give active enzyme prothrombinase. 

The extrinsic pathway of coagulation is activated when circulating factor VII encounters tissue factor. Tissue factor is a transmembrane glycoprotein, which is normally expressed by subendothelial fibroblast-like cells, which surround the blood vessel. An intact endothelium normally shields the circulating blood from exposure to tissue factor. The tissue factor molecule consists of a 219 amino acid hydrophilic extracellular domain, a 23 amino acid hydrophobic region that spans the membrane, and a 21 amino acid cytoplasmic tail that anchors the molecule to the cell membrane (15,16). Other sites of tissue factor expression include activated monocytes, activated endothelial cells, and atherosclerotic plaques. 

Initiation of blood coagulation (clotting) occurs through the contact activation pathway (intrinsic pathway) and the tissue factor (TF) pathway (extrinsic pathway). The contact activation pathway is quantitatively the most important, but is much slower to initiate the TF pathway is considered to be the primary pathway for the initiation of blood coagulation and affords a more rapid response (the so-called thrombin burst), which augments the contact activation pathway. Both pathways share a common pathway that converges at factor X with the production of thrombin (Figure 11.1). 

The classical separation of the intrinsic and extrinsic pathways is a simplification but remains a useful in-vitro phenomenon for monitoring coagulation. Both in vivo and in vitro the systems are dependent on the presence of Ca ions and key in-vivo steps involve the formation of macromolecular complexes on membrane surfaces, usually those of platelets. Cascade reactions culminate in the generation of fibrin and its polymerisation by factor XIII to form a fibrin clot. 

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