Abstract
Platelets have important functions in hemostasis. Best investigated is the aggregation of platelets for primary hemostasis and their role as the surface for coagulation leading to fibrin- and clot-formation. Importantly, the function of platelets does not end with clot formation. Instead, platelets are responsible for clot retraction through the concerted action of the activated αIIbβ3 receptors on the surface of filopodia and the platelet’s contractile apparatus binding and pulling at the fibrin strands. Meanwhile, the signal transduction events leading to clot retraction have been investigated thoroughly, and several targets to inhibit clot retraction have been demonstrated. Clot retraction is a physiologically important mechanism allowing: (1) the close contact of platelets in primary hemostasis, easing platelet aggregation and intercellular communication, (2) the reduction of wound size, (3) the compaction of red blood cells to a polyhedrocyte infection-barrier, and (4) reperfusion in case of thrombosis. Several methods have been developed to measure clot retraction that have been based on either the measurement of clot volume or platelet forces. Concerning the importance of clot retraction in inborn diseases, the failure of clot retraction in Glanzmann thrombasthenia is characterized by a bleeding phenotype. Concerning acquired diseases, altered clot retraction has been demonstrated in patients with coronary heart disease, stroke, bronchial asthma, uremia, lupus erythematodes, and other diseases. However, more studies on the diagnostic and prognostic value of clot retraction with methods that have to be standardized are necessary.
Highlights
Coagulation is characterized by the formation of a fibrin mesh which includes platelets as well as red blood cells and leucocytes
The platelet αIIbβ3 receptors, which control a contractile apparatus via complex signal transduction pathways, bind and pull at the fibrin strands to reduce the volume of the clot
Clot retraction brings the platelets in close contact, hindering the diffusion of signaling molecules and favoring their accumulation to allow cell–cell communication that is similar to a synapse [2,3]
Summary
Coagulation is characterized by the formation of a fibrin mesh which includes platelets as well as red blood cells and leucocytes. The aim of clot formation is the achievement of hemostasis and tissue repair [1]. Clot retraction starts immediately with fibrin formation and the activation of platelets and lasts for several hours. Clot retraction brings the platelets in close contact, hindering the diffusion of signaling molecules and favoring their accumulation to allow cell–cell communication that is similar to a synapse [2,3]. The volume reduction of the clot allows for reperfusion in the case of thrombosis, the tight packing of the red blood cells (named polyhedrocytes) hinders the entrance of pathogens, and the retraction of the wound edges facilitates healing [4,5].
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