Giulia Isetti scite author profile

In blood coagulation, thrombin helps to activate factor XIII by cleaving the activation peptide at the R37-G38 peptide bond. The residues N-terminal to the scissile bond are important in determining rates of hydrolysis. Solution studies of wild-type and mutant peptides of factor XIII AP (28-37) suggest residues P(4)-P(1) are most critical in substrate recognition. By contrast, the X-ray crystal structure of FXIII AP (28-37) displays all of the residues, P(10)-P(1), interacting with the thrombin active site in a conformation similar to that of fibrinogen Aalpha (7-16) [Sadasivan, C., and Yee, V. C. (2000) J. Biol. Chem. 275, 36942-36948]. Peptides were therefore synthesized with the N-terminal P(10)-P(6) residues removed to further characterize interactions of thrombin with factor XIII activation peptides. The truncations have no adverse effects on thrombin's ability to bind and to hydrolyze the shortened peptides. The wild-type FXIII AP (33-41) V34 sequence actually exhibits a decrease in K(m) relative to the longer (28-41) sequence whereas the cardioprotective FXIII AP (33-41) V34L exhibits a further increase in k(cat) relative to its longer parent sequence. One-dimensional proton line broadening NMR and 2D transferred-NOESY studies indicate that the shortened peptides maintain similar bound conformations as their FXIII AP (28-37) counterparts. Furthermore, the distinctive NOE between the L34 and P36 side chains is preserved. Kinetic and NMR studies thus reveal that the N-terminal portions of FXIII AP (28-37) (V34 and V34L) are not necessary for effective interaction with the thrombin active site surface. FXIII activation peptides bind to thrombin in a manner more like PAR1 than fibrinogen Aalpha.

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Employing Mutants to Study Thrombin Residues Responsible for Factor XIII Activation Peptide Recognition: A Kinetic Study

Isetti

Maurer

2007

Biochemistry

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In the last stages of coagulation, thrombin helps to activate Factor XIII. The resultant transglutaminase introduces covalent cross-links into fibrin thus promoting clot stability. To better understand the roles of individual thrombin residues in recognition and hydrolysis of the Factor XIII activation peptide, mutations within thrombin's aryl and apolar binding site were explored. The thrombin mutants W215A, E217A, W215A/E217A, L99A, and I174A were examined through HPLC kinetics against the substrates FXIII (28-41) V34 AP and FXIII (28-41) V34L AP. Several mutants responded differently to FXIII (28-41) V34 AP vs the cardioprotective V34L AP. W215 provides an important platform for binding and directing FXIII APs for proper hydrolysis. Loss of this platform leads to decreases in kinetics, particularly to the kcat of FXIII V34L AP. E217 also plays a supporting role, but the E217A mutation is not as detrimental as W215A. W215A/E217A is unfavorable for both activation peptides and its coupling effect has been characterized. This mutant can readily bind the peptides but cannot orient them for effective hydrolysis. Kinetic studies with I174A indicate that this thrombin residue is more crucial for interactions with the larger V34L AP segment. The L99A mutation causes deleterious effects to binding and hydrolysis of both APs. The V34L, however, is able to partially compensate for the loss perhaps by increasing contact within the aryl and apolar sites. Understanding how specific FXIII and thrombin residues participate in binding and control hydrolysis may lead to the design of coagulation enzymes whose degree of activation and optimal target site can be controlled.

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Probing thrombin's ability to accommodate a V34F substitution within the factor XIII activation peptide segment (28–41)*

Isetti

Maurer

2004

The Journal of Peptide Research

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In blood coagulation, thrombin helps to activate factor XIII (FXIII) by cleaving the activation peptide (AP) at the R37-G38 peptide bond. The common polymorphism V34L yields a FXIII that is more easily activated than the wild type enzyme. Peptides based on the FXIII (28-41) (28TVELQGVVPRGVNL41) sequence serve as an important model system to evaluate the substrate specificity of thrombin and thus how to regulate FXIII activation. Our previous kinetic and nuclear magnetic resonance (NMR) studies have suggested that the P4-P1 amino acids on this FXIII segment provide key anchors to the thrombin active site surface. Furthermore, the most effective amino acid to have at the P4 position is a leucine. In the current work, a peptide containing V34F was examined to probe the ability to accommodate an aromatic residue at this position. Kinetic parameters for thrombin-catalyzed hydrolysis of FXIII AP (28-41) V34F are comparable with that of the wild type V34. One-dimensional proton line-broadening studies reveal that the 34FVPR37 segment encompassing the P4-P1 positions makes the most contact with the thrombin surface. Two-dimensional transferred-nuclear overhauser effect spectroscopy (NOESY) studies indicate that when the peptide is bound to thrombin, the F34 aromatic ring is oriented to promote P4-P2 interactions with P36. This characteristic has been viewed as a hallmark for V34L. An ability to generate this interaction may promote the ability of FXIII AP (28-41) V34F to remain a viable substrate for thrombin.

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The Allosteric Mechanism of Activation of Antithrombin as an Inhibitor of Factor IXa and Factor Xa

Dementiev

Swanson

Roth

et al. 2013

Journal of Biological Chemistry

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Background:The heparin activation mechanism of antithrombin as a factor IXa and Xa inhibitor is not established. Results: Mutations adjacent to helix D result in full activation of antithrombin without heparin. Conclusion: Activation is largely dependent on Tyr-131 and Ala-134 and minimally on reactive center loop hinge expulsion. Significance: This changes the understanding of the activation mechanism of antithrombin.

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Probing interactions between the coagulants thrombin, Factor XIII, and fibrin(ogen)

Maurer¹,

Trumbo²,

Isetti³

et al. 2006

Archives of Biochemistry and Biophysics

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Giulia Isetti

Thrombin Activity Is Unaltered by N-Terminal Truncation of Factor XIII Activation Peptides

Employing Mutants to Study Thrombin Residues Responsible for Factor XIII Activation Peptide Recognition: A Kinetic Study

Probing thrombin's ability to accommodate a V34F substitution within the factor XIII activation peptide segment (28–41)*

The Allosteric Mechanism of Activation of Antithrombin as an Inhibitor of Factor IXa and Factor Xa

Probing interactions between the coagulants thrombin, Factor XIII, and fibrin(ogen)

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