Role of the alpha C domains of fibrin in clot formation

• Published in: Biochemistry (Easton) Vol. 33; no. 22; pp. 6986 - 6997
• Main Authors: Gorkun, O V, Veklich, Y I, Medved, L V, Henschen, A H, Weisel, J W
• Format: Journal Article
• Language: English
• Published: United States 07.06.1994
• Subjects: Amino Acid Sequence; Animals; Blood Coagulation - physiology; Cattle; Fibrin - chemistry; Fibrin - physiology; Fibrinogen - chemistry; Fibrinogen - physiology; Microscopy, Electron; Molecular Sequence Data; Nephelometry and Turbidimetry; Peptide Fragments - physiology; Structure-Activity Relationship
• ISSN: 0006-2960
• DOI: 10.1021/bi00188a031

The role of the carboxyl-terminal portion of the alpha chains of fibrin (alpha C domains) in clot formation was investigated by transmission and scanning electron microscopy and turbidity studies of clots made from preparations of molecules missing one or both of these domains. Highly purified and entirely clottable preparations of bovine fragment X monomer, one containing primarily molecules missing a single alpha C domain (fragment X1) and the other consisting of molecules missing both alpha C domains (fragment X2), were used for these experiments. These preparations were characterized by various methods, including the complete determination of the amino- and carboxyl-termini of all peptides and fragments. These preparations formed clots on dilution to neutral pH. In all cases, clots observed by either scanning or transmission electron microscopy were made up of a branched network of fibers, similar to those formed by thrombin treatment of intact fibrinogen, suggesting that the alpha C domains are not necessary for protofibril and fiber formation or branching. However, both the fiber and clot structure varied with the different fractions, indicating that the alpha C domains do participate in polymerization. The rate of assembly, as indicated by the lag period and maximum rate of turbidity increase, as well as the final turbidity, was decreased with removal of the alpha C domains, suggesting that they accelerate polymerization. preparations of isolated alpha C fragment added to fibrin monomer have striking effects on the turbidity curves, showing a decrease in the rate of polymerization in a dose-dependent manner but not complete inhibition. Electron microscopy of fibrin monomer desA molecules at neutral pH showed that most of the alpha C domains, like those in fibrinogen, remain associated with the central region. Thus, it appears that normally with thrombin cleavage of fibrinogen the effects of the interactions of alpha C domains observed here will be most significant for lateral aggregation.