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  • Title: Generation of a stable thrombin-activatable fibrinolysis inhibitor deletion mutant exerting full carboxypeptidase activity without activation.
    Author: Zhou X, Declerck PJ.
    Journal: J Thromb Haemost; 2015 Jun; 13(6):1084-9. PubMed ID: 25773535.
    Abstract:
    BACKGROUND: Thrombin-activatable fibrinolysis inhibitor (TAFI) is a zymogen that can be activated to form activated TAFI (TAFIa) (Ala93-Val401) through removal of the N-terminal activation peptide (Phe1-Arg92). TAFIa is thermally unstable, and the role of the activation peptide in the activity and stability of TAFI zymogen remains unclear. OBJECTIVES: To better understand the role of the activation peptide in the activity and stability of TAFI. METHODS: We constructed a deletion mutant, TAFI-CIIYQ-∆1-73 , in which the first 73 amino acids of the activation peptide are absent. The intrinsic activity and functional stability were determined with a chromogenic assay. The activation of TAFI-CIIYQ-∆1-73 by TAFI activators was evaluated with western blot analysis. RESULTS: In comparison with TAFI-CIIYQ, the deletion mutant exerted high intrinsic activity ('full' apparent TAFIa activity) without cleavage by TAFI activators. TAFI-CIIYQ-∆1-73 was cleavable by thrombin. However, in the presence of thrombomodulin, the thrombin-mediated cleavage of TAFI-CIIYQ-∆1-73 was not accelerated. TAFI-CIIYQ-∆1-73 showed a similar functional stability profile to that of TAFI-CIIYQ. Full cleavage by thrombin did not affect the apparent carboxypeptidase activity of TAFI-CIIYQ-∆1-73 , but resulted in a significant loss of functional stability. CONCLUSIONS: A stable deletion mutant of TAFI with full carboxypeptidase activity without activation is described. The segment Ala74-Arg92 in the activation peptide contributes significantly to the role of the activation peptide in stabilization of the catalytic moiety in TAFI zymogen.
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