Extrinsic pathways

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. [Pg.172]

FIGURE 15.5 The cascade of activation steps leading to blood clotting. The intrinsic and extrinsic pathways converge at Factor X, and the final common pathway involves the activation of thrombin and its conversion of fibrinogen into fibrin, which aggregates into ordered filamentous arrays that become cross-linked to form the clot. [Pg.465]

Two main apoptotic pathways have been identified in mammalian cells the extrinsic pathway that is activated by the binding of ligands to cell-surface death receptors, and the intrinsic pathway that involves the mitochondrial release of cytochrome cP The activation of extrinsic and intrinsic apoptotic pathways promotes the cleavage into the active form of the pro-caspase-8 and pro-caspase-9, respectively, that mainly determine the activation of effector caspase-3. ° The intrinsic pathway is the main apoptotic pathway activated by chemotherapeutic drugs, while the cytotoxic drug-induced activation of the extrinsic pathway is a more controversial issue. ... [Pg.359]

Both Intrinsic Extrinsic Pathways Result in the Formation of Fibrin... [Pg.598]

Two pathways lead to fibrin clot formation the intrinsic and the extrinsic pathways. These pathways are not independent, as previously thought. However, this artificial distinction is retained in the following text to fa-cihtate their description. [Pg.598]

Initiation of the fibrin clot in response to tissue injury is carried out by the extrinsic pathway. How the intrinsic pathway is activated in vivo is unclear, but it involves a negatively charged surface. The intrinsic and extrinsic pathways converge in a final common path-vray involving the activation of prothrombin to thrombin and the thrombin-catalyzed cleavage of fibrinogen to form the fibrin clot. The intrinsic, extrinsic, and final common pathways are complex and involve many different proteins (Figure 51-1 and Table 51-1). In... [Pg.598]

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.)...

The Extrinsic Pathway Also Leads to Activation of Factor X But by a Different Mechanism... [Pg.601]

In the final common pathway, factor Xa, produced by either the intrinsic or the extrinsic pathway, activates prothrombin (factor II) to thrombin (factor Ila), which then converts fibrinogen to fibrin (Figure 51-1). [Pg.601]

A number of laboratory tests are available to measure the phases of hemostasis described above. The tests include platelet count, bleeding time, activated partial thromboplastin time (aPTT or PTT), prothrombin time (PT), thrombin time (TT), concentration of fibrinogen, fibrin clot stabifity, and measurement of fibrin degradation products. The platelet count quantitates the number of platelets, and the bleeding time is an overall test of platelet function. aPTT is a measure of the intrinsic pathway and PT of the extrinsic pathway. PT is used to measure the effectiveness of oral anticoagulants such as warfarin, and aPTT is used to monitor heparin therapy. The reader is referred to a textbook of hematology for a discussion of these tests. [Pg.608]

The coagulation system that generates thrombin consists of intrinsic and extrinsic pathways. Both pathways are composed of a series of enzymatic reactions eventually producing thrombin, fibrin, and a stable clot. In parallel with the coagulation, the fibrinolytic system is activated locally. Plasminogen is converted to plasmin, which dissolves the fibrin mesh1 2 3 (Fig. 64—1). [Pg.987]

Although the final steps of the blood clotting cascade are identical, the initial steps can occur via two distinct pathways extrinsic and intrinsic. Both pathways are initiated when specific clotting proteins make contact with specific surface molecules exposed only upon damage to a blood vessel. Clotting occurs much more rapidly when initiated via the extrinsic pathway. [Pg.330]

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... [Pg.330]

III Tissue factor (thromboplastin) Extrinsic Accessory tissue protein which initiates extrinsic pathway... [Pg.330]

The initial steps of the intrinsic pathway are somewhat more complicated. This system requires the presence of clotting factors VIII, IX, XI and XII, all of which, except for factor VIII, are endo-acting proteases. As in the case of the extrinsic pathway, the intrinsic pathway is triggered upon exposure of the clotting factors to proteins present on the surface of body tissue exposed by vascular injury. These protein binding/activation sites probably include collagen. [Pg.331]

Both intrinsic and extrinsic pathways generate activated factor X. This protease, in turn, catalyses the proteolytic conversion of prothrombin (factor II) into thrombin (Ha). Thrombin, in turn, catalyses the proteolytic conversion of fibrinogen (I) into fibrin (la). Individual fibrin molecules aggregate to form a soft clot. Factor XHIa catalyses the formation of covalent crosslinks between individual fibrin molecules, forming a hard clot (Figures 12.3 and 12.4). [Pg.332]

Figure 17.2 The intrinsic and extrinsic pathways involved in blood clotting. Both pathways converge to activate thrombin. Solid arrows represent biochemical conversions whereas dotted arrows represent either catalytic or activating actions. Fibrin is formed as monomers which polymerise to form fibrils. Within the fibrils, the fibrin monomers associate laterally which is facilitated by active XIII (ie Xllla). Thrombin activates XIII.

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. [Pg.111]

Partially responsible for inhibition of the extrinsic pathway. Inactivates factors V and VIII and promotes fibrinolysis. Activity declines following warfarin administration. cofactor to accelerate the anticoagulant activity of protein C. Decreased levels occur following warfarin administration. ... [Pg.112]

The extrinsic pathway involves response to an external signal. [Pg.214]

Figure 14-8. Overview of pathways that regulate programmed cell death. Apoptosis may occur in response to signaling through either the extrinsic pathway or the intrinsic pathway. In each case, proteolytic cleavage activates an initiator caspase, caspase 8 or 9, either of which can cleave an effector caspase such as caspase 3. Apaf-1 is part of a large complex called the apoptosome that mediates the intrinsic pathway. Binding of an extracellular death ligand to its cell-surface receptor activates the extrinsic pathway.

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