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Thrombin-activatable fibrinolysis inhibitor (TAFI) is a pro-metallocarboxypeptidase that can be proteolytically activated (TAFIa). TAFIa is unique among carboxypeptidases in that it spontaneously inactivates with a short half-life, a property that is crucial for its role in controlling blood clot lysis. We studied the intrinsic instability of TAFIa by solving crystal structures of TAFI, a TAFI inhibitor (GEMSA) complex and a quadruple TAFI mutant (70-fold more stable active enzyme). The crystal structures show that TAFIa stability is directly related to the dynamics of a 55-residue segment (residues 296-350) that includes residues of the active site wall. Dynamics of this flap are markedly reduced by the inhibitor GEMSA, a known stabilizer of TAFIa, and stabilizing mutations. Our data provide the structural basis for a model of TAFI auto-regulation: in zymogen TAFI the dynamic flap is stabilized by interactions with the activation peptide. Release of the activation peptide increases dynamic flap mobility and in time this leads to conformational changes that disrupt the catalytic site and expose a cryptic thrombincleavage site present at Arg302. This represents a novel mechanism of enzyme control that enables TAFI to regulate its activity in plasma in the absence of specific inhibitors. (Blood. 2008;112: 2803-2809) Introduction TAFI 1,2 is a pro-metallocarboxypeptidase that links the coagulation and fibrinolytic systems. TAFI is activated by thrombin, the thrombin-thrombomodulin complex or plasmin. 3 Activated TAFI (TAFIa) inhibits plasmin-mediated blood clot lysis by removing C-terminal lysine residues from partially degraded fibrin that are required for positive feedback in tissue plasminogen-activator dependent plasmin generation. In addition, TAFIa has been implicated in modulation of the inflammatory response by inactivating bradykinin and the anaphylatoxins C3a and C5a. 4,5 Although it is a powerful antifibrinolytic agent, there are no known physiologic inhibitors of TAFIa. Instead, the half-life of TAFIa activity is regulated by its intrinsic instability. The inactivation rate, 5 to 10 minutes at 37°C, is highly temperature-dependent, suggesting that inactivation involves a large conformational change. 6 This is also suggested by the susceptibility of the inactive enzyme, TAFIai to proteolytic cleavage by thrombin at Arg302, a site that is cryptic in TAFI and TAFIa. 6,7 The stability of TAFIa is an important determinant for its antifibrinolytic potential because TAFIa inhibits fibrinolysis through a threshold-dependent mechanism. [8][9][10] Full-length TAFI consists of 401 amino acids divided into 2 domains: the first 92 amino acids form the activation peptide; the next 309 amino acids form the catalytic domain. The activation peptide restricts substrate access to the catalytic cleft in the zymogen. TAFI is activated through cleavage at Arg92, which releases the activation peptide.TAFI is highly homologous to the pancreatic procarboxypeptidases with 42% sequence identity to human procarboxypeptidase B (pro...

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Structure‐function relationships in thrombin‐activatable fibrinolysis inhibitor

Plug

Meijers

2016

Journal of Thrombosis and Haemostasis

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To cite this article: Plug T, Meijers JCM. Structure-function relationships in thrombin-activatable fibrinolysis inhibitor. J Thromb Haemost 2016; 14: 633-44.Summary. Thrombin-activatable fibrinolysis inhibitor (TAFI) is an important regulator in the balance of coagulation and fibrinolysis. TAFI is a metallocarboxypeptidase that circulates in plasma as zymogen. Activated TAFI (TAFIa) cleaves C-terminal lysine or arginine residues from peptide substrates. The removal of C-terminal lysine residues from partially degraded fibrin leads to reduced plasmin formation and thus attenuation of fibrinolysis. TAFI also plays a role in inflammatory processes via the removal of C-terminal arginine or lysine residues from bradykinin, thrombin-cleaved osteopontin, C3a, C5a and chemerin. TAFI has been studied extensively over the past three decades and recent publications provide a wealth of information, including crystal structures, mutants and structural data obtained with antibodies and peptides. In this review, we combined and compared available data on structure/function relationships of TAFI.

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T. Plug

Crystal structures of TAFI elucidate the inactivation mechanism of activated TAFI: a novel mechanism for enzyme autoregulation

Structure‐function relationships in thrombin‐activatable fibrinolysis inhibitor

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