Cardio L17 Blood Clotting Flashcards
Blood Clotting
The need →
to avoid blood loss when blood vessels damaged (excessive blood loss produces shock and death).
Problems associated with blood clotting →
Inadequate e.g. haemophilia and some venom gives excessive bruising and haemorrhaging.
Inappropriate e.g. deep vein thrombosis, coronary thrombosis, stroke and other venoms.
A blood clot consists of a
plug of platelets enmeshed in a network of insoluble fibrin molecules:
2 components:
1. Platelets → are cell fragments made from megakaryocyte (no nucleus).
2. Fibrin
Process:
1. Tissue damage activates
a. Conversion of Prothrombin to thrombin via a complex proteolytic cascade
i. Proteolytic cleavage of fibrinogen to fibrin which polymerises to form clot.
b. Activation and aggregation of platelets
Platelets aggregation:
Von Willebrand factor
Serotonin
Von Willebrand factor
links collagen exposed on damaged blood vessels to platelets.
• The activated platelets release factors such as
as ADP and thromboxane to activate more platelets causing aggregation that forms a plug of platelets.
Serotonin
is also released causing local vasoconstriction as are other factors that enhance thrombin cleavage.
Aggregation of activated platelets: (3)
- Platelet activation causes changes in the shape of platelets and conformation changes in glycoprotein IIb/IIIa receptors
- ADP and thromboxane binding lads to a conformation change in IIB/IIIa receptors = active receptors.
- The activated receptors can be cross-linked by fibrinogen to form bridges between adjacent platelets and facilitate platelet aggregation.
Fibrinogen (precursor molecules) structure
3 component chains with globular units and alpha helices with cleavage sites:
- Gamma
- Beta → cleaved by thrombin
- Alpha → cleaved by thrombin
Process: of fibrinogen
- Thrombin cleaves of peptides from alpha and beta subunits.
- Produces a truncated fibrin which can polymerise as the ends can bind into groves → this polymerisation is the formation of a clot (soft – rapid formation).
Hard clot →
Clot is stabilised by cross-linking glutamines with lysines using a transglutaminase (Factor XIIIa)
How do we activate the Thrombin:
thrombin is a proteolytic reaction catalysed by a serine protease factor Xa together with a stimulatory protein factor Va.
Cleavage → 2 places (see below) by proteases factor Xa and Va
Cleavage two sites:
Kringle domain
Gla domain
Kringle domain →
a triple loop structure stabilised by 3 dulsphide bonds → involved in protein interactions between blood clotting factors and mediators.
- Gla domain →
contains 10 gamma-carboxyglutamte.
Gla domain cleavage requires
a. This cleavage requires calcium to bind the gamma-carboxyglutamate residues of the Gla region.
b. The calcium binds the prothrombin to the phospholpds of the platelet cell membranes at the damage site.
c. Gamma-carboxyglutamate is formed form glutamate by a vitamin K dependent carboxylation reaction.
Enzyme inhibited fibrin Gla domain cleavage
d. This enzyme is inhibited by dicoumarol (found in spoiled sweet clover that cause haemorrhagic disease in cattle) and warfarin (rat poison) used to prevent blood clots in patients prone to DVT.
Gamma-carboxyglutamate information:
Found
Gamma-carboxyglutamate information: During platelet activation prothrombin is cleaved to thrombin how:
Cleavage requires calcium to bind to the gamma-carboxyglutamate residues in this region.
Gamma-carboxyglutamate information: Calcium recruitment
Calcium binds to prothrombin to allow binding to phospholipids on the platelet membrane (damamge site)
Gamma-carboxyglutamate information: Gamma-carboxyglutamate formed from
From glutamate by a vitamin K dependent carboxylation reaction.
