Fibrinogen BOE II: dysfibrinogenemia with bleeding and defective thrombin binding.

BACKGROUND

Variants of fibrinogen sequences that bind to thrombin's catalytic sites are mostly associated with bleeding phenotypes, while variants with fibrinogen nonsubstrate-thrombin-binding sites are commonly believed to cause thrombosis. AαGlu39 and BβAla68 play important roles in fibrin(ogen)-thrombin-nonsubstrate binding. The BβAla68Thr variant has been described in several unrelated families with apparent thrombotic phenotypes.

OBJECTIVES

Homozygous AαGlu39Lys variant (fibrinogen BOE II) was identified in a boy with dysfibrinogenemia who had multiple cerebral hemorrhages. A series of analyses were performed to assess the variant's functions and elucidate underlying bleeding mechanisms.

METHODS

Abnormal fibrinogen was purified from plasma and subjected to Western blot, fibrinogen and fibrin monomer polymerization, clottability, fibrinopeptides release, activated factor (F)XIII (FXIIIa) cross-linking, fibrinolysis, and scanning electron microscopy analyses.

RESULTS

Fibrinogen BOE II weakened the binding capacity of thrombin to fibrinogen and delayed the formation of fibrin clots. The release of fibrinopeptides, polymerization of fibrinogen catalyzed by thrombin, and cross-linking of FXIIIa of fibrinogen BOE II were impaired. In contrast, batroxobin-catalyzed fibrinogen polymerization and desA/desAB fibrin monomer polymerization did not differ from those in normal controls. Fibrin clots formed by fibrinogen BOE II were composed of thicker fibrin fibers and showed a faster fibrinolysis rate.

CONCLUSION

Defective fibrin(ogen)-thrombin-nonsubstrate binding is not necessarily associated with thrombotic disorders. When the hypercoagulable state created by increased circulating free thrombin is insufficient to compensate for defective hemostasis caused by slowly formed but rapidly lysed clots, the primary concern of thrombin-binding deficiency dysfibrinogenemia appears to be hemorrhage rather than thrombosis.