Effect of Plasmin Treatment on the Fibrin Gel Formation

Yatagai, Yukiko; Kubota, Kenji; Toyama, Yoshiharu; Nameki, Nobukazu; Ochiai, Masanori

doi:10.14723/tmrsj.36.371

Cited by 2 publications

(4 citation statements)

References 20 publications

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“…The αC region could play a role to mediate those interactions effectively in a complimentary manner. In agreement with this scenario, abnormal fibrin oligomers are formed in the fibrinogen lacking BβN region [23], and lateral aggregation does not proceed at all in the fibrinogen lacking both of the BβN and αC regions [9,25].…”

Section: Discussionmentioning

confidence: 83%

“…This is the first step of the fibrin polymerization, and the motive force of this step is the specific interaction between A-knob in the central E region and a-hole in the distal D region. In the successive second step, grown protofibrils aggregate laterally resulting in the fiber bundles and network formation, although little is known about the detailed mechanism of lateral aggregation [7][8][9]. Fibrin network plays an indispensable role in the hemostasis, wound healing, and thrombosis.…”

Section: Introductionmentioning

confidence: 99%

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Desialylation of N-Linked Carbohydrate Chain of Fibrinogen

Kubota

Toyama

Nameki

et al. 2013

KEM

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Acceleration of fibrin polymerization occurs by the cleavage of sialic acids at the nonreducing terminal ends of N-linked carbohydrate chains as well as the cleavage of the entity of carbohydrate chains. In order to characterize and clarify the role of terminal sialic acid in the fibrin polymerization, mixing effects of desialylated fibrinogen with the intact one on the polymerization behavior were investigated by turbidity measurements in the course of polymerization. Marked accelerated fibrin polymerization was observed for the mixing of even a little amount of desialylated fibrinogen. Cleavage of the terminal sialic acid resulted in almost the equivalent accelerating effect to those of the deglycosylated fibrinogen, in which the entity of N-linked carbohydrate chain was cleaved. These results suggest that the terminal sialic acids regulate the fibrin polymerization in an inhibitory manner, and the cleavage of them induces the switchover from the protofibril growth to the lateral aggregation of fibrin polymerization process, resulting in the preferential fibrin polymerization.

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Section: Discussionmentioning

confidence: 83%

Section: Introductionmentioning

confidence: 99%

Desialylation of N-Linked Carbohydrate Chain of Fibrinogen

Kubota

Toyama

Nameki

et al. 2013

KEM

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“…Variant fibrinogen, where deletion of the sequence Bβ9-72 occurs, shows seriously impaired dysfibrinogenemia [8]. No fibrin polymerization is observed by throm-bin nor reptilase in the fibrinogen, of which Bβ1-133 is deleted, although protofibril formation occurs [4]. The results that reptilase-catalyzed fibrin polymerizationis in intact one were affected by Clconcent-ration similarly to those of thrombin-catalyzed one, suggests that the entity of BβN region, neither fibrinopeptide B nor B-knob alone, could be involved in the lateral aggregation dominantly by interacting with D region.…”

Section: Discussionmentioning

confidence: 99%

“…In the successive second step, protofibrils grown axially aggregate laterally resulting in the fiber bundles and fibrin clot. Although little is known about the detailed mechanism of lateral aggregation, it has been suggested that the interaction between amino terminal region of Bβ chain (BβN region) and the D region plays an important role in aggregating laterally [3,4]. BβN region is released succeeding to the protofibril formation and the release might be controlled inhibitedly by CHO chains linked to Bβ chain at the D region of adjacent fibrin in the protofibril.…”

Section: Introductionmentioning

confidence: 99%

Effect of Deglycosylation on the Fibrin Polymerization Depending on NaCl Concentration

Kubota

Toyama

Nameki

et al. 2013

KEM

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Cleavage of carbohydrate chains linked to fibrinogen molecule results in an acceleration of fibrin polymerization, fibrin gel formation, by promoting the lateral aggregation of protofibrils. Sialic acid at the unreduced terminus of carbohydrate chain plays an essentially important role in the lateral aggre-gation. Fibrin polymerization is significantly affected by the solvent condition, e.g., pH and ionic strength. Terminal sialic acid are supposed to interact with amino terminal region of Bβ chain, in which there are many basic amino acid residues, and thus such interactions are expected to be electrostatic. In order to clarify whether the electrostatic interactions are essential for lateral aggregation, we examined temporal growth of fibrin polymerization of deglycosylated fibrinogen at high NaCl concentration. Marked acceleration of lateral aggregation was observed in deglycosylated fibrinogen even at high NaCl concentration where lateral aggregation was significantly inhibited in intact fibrinogen. These results suggest specific interactions of terminal sialic acid of the carbohydrate chain with the central E region of fibrinogen molecule, which may be important for the regulation of lateral aggregation rather than electrostatic interactions between the terminal sialic acids and the amino terminal region of Bβ chain.

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Effect of Plasmin Treatment on the Fibrin Gel Formation

Cited by 2 publications

References 20 publications

Desialylation of N-Linked Carbohydrate Chain of Fibrinogen

Desialylation of N-Linked Carbohydrate Chain of Fibrinogen

Effect of Deglycosylation on the Fibrin Polymerization Depending on NaCl Concentration

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