Abstract

Coagulation factor XIII (FXIII) is activated by thrombin and catalyses crosslinking between fibrin monomers thereby providing mechanical strength to the fibrin network. V34L is a common FXIII-A polymorphism found in the activation peptide. FXIII-A V34L is activated faster by thrombin and provides formation of a tighter clot at fibrinogen concentrations in the low end of the physiological range. FXIII-A variants with potentially increased activation rates were generated. Introduction of an optimal thrombin cleavage site, V34L+V35T, increased the activation rate 7.6-fold and facilitated the formation of a fibrin network more resistant to fibrinolysis than obtained with wt FXIII-A. In contrast, introduction of fragments of fibrinopeptide A into the activation peptide resulted in severely impaired activation rates.