Main Difference – Fibrin vs Fibrinogen
Fibrin and fibrinogen are two protein components that play a vital role in blood clotting, fibrinolysis, inflammatory responses, wound healing, and neoplasia. The above functions are regulated by various interactive sites on both types of molecules. Fibrinogen is converted into fibrin by thrombin, a clotting factor. The main difference between fibrin and fibrinogen is that fibrin is a thread of proteins that forms the mesh during the formation of blood clot whereas fibrinogen is a plasma protein involved in the formation of fibrin. The three types of pathways involved in the formation of a blood clot are intrinsic pathway, extrinsic pathway, and common pathway.
Key Areas Covered
1. What is Fibrin
– Definition, Formation, Function
2. What is Fibrinogen
– Definition, Structure, Function
3. What are the Similarities Between Fibrin and Fibrinogen
– Outline of Common Features
4. What is the Difference Between Fibrin and Fibrinogen
– Comparison of Key Differences
Key Terms: Activated Platelets, Blood Clotting, Coagulation, Fibrin, Fibrinogen, Fibrinopeptide A (FPA), Thrombin
What is Fibrin
Fibrin refers to an elastic, whitish protein produced by the action of thrombin on plasma fibrinogen to form an intercalating fibrous network during the blood coagulation. Fibrinogen is composed of two sets of Aα-, Bβ-, and γ-chains. The six chains are linked by di-sulfide bridges. Each fibrinogen molecules consist of two D domains connected to a central E domain through a coiled-coil segment. Both extrinsic and intrinsic pathways activate the clotting factors that convert the inactive prothrombin into thrombin. Thrombin converts fibrinogen into cross-linked fibrin. It cleaves the fibrinopeptide A (FPA) from Aα-chains of the fibrinogen molecule, initiating fibrin polymerization. The association of the D and E domains forms double-stranded fibrils. The later lateral association and branching of fibrils form the network of fibrin. The antiparallel, C-terminal assembly of intermolecular γ-chains form covalent cross-links under the influence of a clotting factor XIII or XIIIa, forming γ-dimers. The formation of cross-linked γ-dimers is shown in figure 1.
Figure 1: Fibrin γ-Dimers
The activated platelets and other components of the blood are trapped in the cross-linked fibrin mesh, forming the blood clot. The formation of the blood clot prevents bleeding. The formed fibrin mesh is involved in wound healing, and it sometimes causes neoplasia, an abnormal growth of tissue. The fibrin mesh can be cleaved by plasmin in a process known as fibrinolysis.
What is Fibrinogen
Fibrinogen refers to a soluble protein found in the blood plasma from which fibrin is produced during the blood coagulation. It possesses an elongated structure and is 45 nm long. The Aα-chain, Bβ-chain and γ-chain consist of 610, 461, 411 residues respectively. The cleavage of the N-terminal FPA sequence by thrombin induces the polymerization of fibrin. The crystal structure of native chicken fibrinogen is shown in figure 2.
Figure 2: Fibrinogen
The main function of fibrinogen is to be circulated throughout the body within the plasma and activated by thrombin to form fibrin.
Similarities Between Fibrin and Fibrinogen
- Fibrin and fibrinogen are two types of protein components involved in the formation of a blood clot.
- Both fibrin and fibrinogen are required by the common pathway of blood clotting.
Difference Between Fibrin and Fibrinogen
Definition
Fibrin: Fibrin refers to an elastic, whitish protein produced by the action of thrombin on plasma fibrinogen to form an intercalating fibrous network during the blood coagulation.
Fibrinogen: Fibrinogen refers to a soluble protein found in the blood plasma from which the fibrin is produced during the blood coagulation.
Significance
Fibrin: Fibrin is a fibrous substance made up of proteins.
Fibrinogen: Fibrinogen is a plasma protein.
Activity
Fibrin: Fibrin is the active form.
Fibrinogen: Fibrinogen is the inactive form.
Solubility
Fibrin: Fibrin is insoluble.
Fibrinogen: Fibrinogen is soluble in the plasma.
Formation
Fibrin: Fibrin is formed by the action of thrombin on fibrinogen.
Fibrinogen: Fibrinogen is a glycoprotein in the blood.
Role
Fibrin: Fibrin is involved in the formation of a blood clot along with the activated platelets and other components.
Fibrinogen: Fibrinogen is involved in the formation of the fibrin network.
Conclusion
Fibrin and fibrinogen are two types of protein components in the animal body, and they possess a vital role in the blood coagulation. Fibrin is the thread-like protein formed by the polymerization of fibrinogen by the action of thrombin. It forms a network to trap activated platelets and other components for the formation of a blood clot. Fibrinogen is a plasma protein. The main difference between fibrin and fibrinogen is the structure and function of each protein component.
Reference:
1. MOSESSON, M. W. “Fibrinogen and fibrin structure and functions.” Journal of Thrombosis and Haemostasis, Blackwell Science Inc, 8 Aug. 2005, Available here.
Image Courtesy:
1. “Stabilisation de la fibrine par le factor XIII” (CC BY-SA 3.0) via Commons Wikimedia
2. “PDB 1m1j EBI” By Jawahar Swaminathan and MSD staff at the European Bioinformatics Institute
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