Biochemistry-Coagulation & Fibrinolysis

Question 1

What is the difference between plasma and serum?

Answer 1

Serum has the clotting proteins removed

Question 2

What are the major proteins that make up plasma?

Answer 2

Albumins (60%) and Globulins (35%)

Question 3

Function of albumin

Answer 3

Osmotic pressure and transportation of fatty acids, bilirubin and drugs.

Question 4

Function of globulins

Answer 4

Transport of lipoproteins, retinol, transferrin, steroids; host defense (Ig and complement); regulation (hormones, enzymes)

Question 5

How much thrombin is activated in the clotting cascade?

Answer 5

Not very much. You only need a little bit to activate fibrin.

Question 6

What are the intrinsic and extrinsic clotting cascades? What types of enzymes predominate in this cascade?

Answer 6

Serine proteases make up the majority of the activated enzymes in the clotting cascade.

Question 7

Initiation phase of the clotting cascade

Answer 7

Sub-endothelial tissue factor is exposed after vascular injury. Factor VIIa contacts tissue factor and forms a complex. TF-VIIa complex activates factors IX and X. Factor X forms a complex with cofactor Va (now prothrombinase) on the TF-bearing cell and converts prothrombin to thrombin. Thrombin then goes on to activate factors V, VII, VIII and XI.

Question 8

Where does the active Xa come from in the clotting cascade?

Answer 8

Local site of activation, prothrombinase is resistant to ATIII and serpins. Free Xa, IXa and XIa in the circulation are inactivated by antithrombin III and serpins (serine protease inhibitors) so clots aren’t formed in circulation.

Question 9

Amplification phase of the clotting cascade

Answer 9

Platelets and factor VIII/vWF access the TF-bearing cells at the site of injury. Platelets release factor V, thrombin activates it and more prothrombinase complexes (activated V/X complex) is formed and thrombin levels are amplified. Thrombin also releases VIIIa from the VIII/vWF complex. VIIIa binds activated platelets and factor XI is activated

Question 10

What happens to platelets when they are bound by thrombin? What happens when they are bound by collagen.

Answer 10

They change shape and degranulate. When collagen binds they shoot out filaments and become pseudopods.

Question 11

What role do factors XIII and IX play on the platelets?

Answer 11

They activate X so that it can form a prothrombinase complex with Va. “VIII and IX are Xase”

Question 12

Hemophilia A

Answer 12

Factor VIII deficiency

Question 13

Hemophilia B

Answer 13

Factor IX deficiency

Question 14

Most common inherited bleeding disorder?

Answer 14

Von Willebrand’s

Question 15

Propagation phase of the clotting cascade

Answer 15

Factor IXa, which was activated in the initiation phase, binds factor VIIIa on the platelet surface. Factor X is activated to Xa at many sites on platelets, generating a burst of thrombin large enough to clot fibrinogen and form a hemostatic plug

Question 16

How does damage to the blood vessel cause platelet aggregation?

Answer 16

Platelets are exposed to vWF and collagen. GP I/II surface molecules allow for platelet adhesion and degranulation. Platelets release ADP (activates surrounding platelets), TxA2 & 5-HT (vasoconstriction) and factor V (stays on surface to form prothrombinase w/Xa).

Question 17

How does clopidogrel work?

Answer 17

Inhibits ADP binding site on platelets to prohibit activation of other platelets

Question 18

Mechanism of fibrinogen activation by thrombin?

Answer 18

Thrombin removes the negatively charged Glu and Asp residues that repel fibrinogen molecules from one another, allowing the fibrin molecules to aggregate to form a soft clot. Factor XIIIa (transamidase) converts the soft clot into the hard clot by cross-linking fibrin molecules

Question 19

What clotting factors require Ca2+? Deficiency in what nutrient could cause decreased function by these clotting factors?

Answer 19

II, VII, IX and X. Vitamin K. These clotting factors are gamma-carboxyglutamate residues. You need Vitamin K to go from Glu to the gamma-carboxyglutamate.

Question 20

What action on vitamin K is essential in the clotting cascade?

Answer 20

Reduction of the epoxide by vitamin K epoxide reductase. This allows Vitamin K to get back to its active form by vitamin K reductase so it can continue to activate clotting factors II, VII, IX, X and protein S. Note that warfarin blocks Vitamin K epoxide reductase.

Question 21

What can you give a patient who is hemorrhaging because they took too much warfarin?

Answer 21

You can’t just supplement with vitamin K because it takes too much time to resynthesize all the clotting factors. Instead you would give fresh frozen plasma or factor concentrates to replace clotting factor deficiency.

Question 22

What is thrombin’s role in preventing intravascular clotting after endothelial injury?

Answer 22

Thrombin binds thrombomodulin on healthy endothelial cells. This complex activates protein C. Protein C forms an activated complex with protein S from the platelet surface that goes on to destroy factors Va and VIIIa, stopping the coagulation cascade.

Question 23

How does heparin work?

Answer 23

ATIII is a serpin that is always present bound to heparan sulfates on endothelial cells. ATIII inhibits thrombin and most other serine proteases to stop coagulation. Heparin gets into the blood and massively activates ATIII.

Question 24

How does the body stop the coagulation cascade at the very beginning?

Answer 24

Tissue factor pathway inhibitor (TFPI) inhibits the TF-VIIa complex and Xa.

Question 25

What role do the endothelial cells play in inhibition of the clotting cascade?

Answer 25

PGI2 and NO release. Degradation of ADP via membrane ADP-ase.

Question 26

How does the fibrin network get dissolved?

Answer 26

When the network forms, it already has plasminogen and t-PA inside of it. Normally t-PA is kept inactive by plasmin activator inhibitor (PAI-1). Under the effects of protein C, PAI is degraded, activating t-PA. t-PA is a serine protease and converts plasminogen to the active plasmin. Plasmin degrades the fibrin clot until it is exposed to the external clot and is then deactivated by alpha2-antiplasmin.