Coagulation proteases are trypsin-like enzymes with similar three-dimensional structures, unlike trypsin; however, they exhibit a high degree of specificity, assemble on membrane surfaces in the presence of calcium and require cofactors to function. Cofactors bind to coagulation proteases and/or their substrates to improve the rate of catalytic reactions by several orders of magnitude. Recent structural, kinetic and mutagenesis data suggest that such dramatic improvement in the rate of catalytic reactions may primarily be mediated by cofactor-dependent exosite interactions between these proteins. The high rates of factor Va-dependent prothrombin activation by factor Xa; thrombomodulin-dependent protein C activation by thrombin; tissue-factor dependent factors IX and X activation by factor Vila; and factor Villa-dependent factor X activation by factor IXa, have all been attributed to such interactions. The molecular basis for recognition specificity of these cofactor/enzyme/substrate interactions is not well understood. We hypothesize that a limited number of key divergent residues on the conserved homologous surface loops of coagulation proteases and/or their zymogens provide recognition sites, termed """"""""exosites,"""""""" for these specific interactions. The overall objective of this project is to identify and map these specific macromolecular interaction sites on coagulation factors. We propose to 1) use crystal structures, molecular models, mutagenesis and kinetic approaches to identify candidate residues on homologous surface loops at the same 3-dimensional locations on coagulation proteases and/or their zymogens that might be involved in determination of specificity; and 2) use crystal structures and molecular models to design coagulation factors that may shed light on the mechanism by which coagulation cofactors function.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
1R01HL068571-01A1
Application #
6535898
Study Section
Hematology Subcommittee 2 (HEM)
Program Officer
Link, Rebecca P
Project Start
2002-07-08
Project End
2006-05-31
Budget Start
2002-07-08
Budget End
2003-05-31
Support Year
1
Fiscal Year
2002
Total Cost
$330,750
Indirect Cost
Name
Saint Louis University
Department
Biochemistry
Type
Schools of Medicine
DUNS #
City
Saint Louis
State
MO
Country
United States
Zip Code
63103
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Hassanian, Seyed Mahdi; Dinarvand, Peyman; Rezaie, Alireza R (2014) Adenosine regulates the proinflammatory signaling function of thrombin in endothelial cells. J Cell Physiol 229:1292-300
Rana, Soumendra; Yang, Likui; Hassanian, Seyed Mahdi et al. (2012) Determinants of the specificity of protease-activated receptors 1 and 2 signaling by factor Xa and thrombin. J Cell Biochem 113:977-84
Manithody, Chandrashekhara; Yang, Likui; Rezaie, Alireza R (2012) Identification of exosite residues of factor Xa involved in recognition of PAR-2 on endothelial cells. Biochemistry 51:2551-7
Costa, R; Morrison, A; Wang, J et al. (2012) Activated proteinýýC modulates cardiac metabolism and augments autophagy in the ischemic heart. J Thromb Haemost 10:1736-44
Bae, J-S; Lee, W; Rezaie, A R (2012) Polyphosphate elicits pro-inflammatory responses that are counteracted by activated protein C in both cellular and animal models. J Thromb Haemost 10:1145-51
Bae, Jong-Sup; Rezaie, Alireza R (2011) Activated protein C inhibits high mobility group box 1 signaling in endothelial cells. Blood 118:3952-9
Rezaie, Alireza R (2011) The occupancy of endothelial protein C receptor by its ligand modulates the par-1 dependent signaling specificity of coagulation proteases. IUBMB Life 63:390-6
Wang, J; Yang, L; Rezaie, A R et al. (2011) Activated protein C protects against myocardial ischemic/reperfusion injury through AMP-activated protein kinase signaling. J Thromb Haemost 9:1308-17
Rezaie, A R (2010) Regulation of the protein C anticoagulant and antiinflammatory pathways. Curr Med Chem 17:2059-69

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