Abstract

This application is based upon the conviction that activation of factor IX (FIX) by the tissue factor/factor VIIa (TF/VIIa) complex represents a key step in the initiation of coagulation by the extrinsic pathway. All of the specific aims represent continuation of our ongoing studies. FIX consists of an N-terminal Gla domain followed by two EGFlike domains, an activation peptide (AP) segment, and a C-terminal serine protease domain.
In specific aim 1, we will address the hypothesis that the protease and EGF2 domains of FIXa play a primary role in binding to factor VIIIa (FVIIIa). A select number of FIXa mutants in these two domains will be investigated for their abilities to interact with FVIIIa in both kinetic and direct binding assays. In the kinetic based tenase assays, we will use FVIIIa and its isolated A2 subunit. In direct binding assays, we will use the isolated A1, A2, A3-C1, and A3-C1-C2 subunits of FVIIIa.
In specific aim 2, we will address the hypothesis that the Gla and EGFI domains as well as the AP segment of FIX play a key role in its interaction with TF/VIIa. Here, we will replace the Gla domain of FIX with that of protein C as well as make point mutants in the EGF1 domain. The ability of these FIX mutants to bind to soluble TF (sTF) and to be activated by TF/VIIa (and sTF/VIIa) or FXIa will be determinedx We believe that, in contrast to the mutants in specific aim 1, some of the EGF1 and Gla domain mutants will be impaired in binding to sTF as well as in activation by TF/VIIa (and sTF/VIIa). Further, the EGF 1 and Gla domain mutants may be impaired to a different degree in binding to FVIIIa. The binding mode of the AP segment of FIX will be studied by displacement of benzamidine from our benzamidine-VIIa/sTF crystals by the synthetic AP segments and structure determinations of the resultant AP-sTF/VIIa complexes.
In specific aim 3, we hypothesize that there is a sodium site in the protease domain of FIXa, which is similar to FXa, FVIIa, and activated protein C but not to thrombin. We will investigate the effect of sodium on the catalytic efficiency of FIXa and on binding to FVIIIa as well as evaluate a functional linkage between the S 1 site, sodium site, and the calcium site in the protease domain of FIXa. To experimentally define sodium site, we will prepare EGF2-protease segment of FIXa and crystallize it in the presence of (a) sodium and (b) rubidium and determine its structure. Our integrated approach is expected to provide new information regarding the activation of FIX by TF/VIIa and the assembly of FIXa:FVIIIa complex, which could be central to developing a new generation of antithrombotics.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL036365-18
Application #
6853555
Study Section
Hematology Subcommittee 2 (HEM)
Program Officer
Link, Rebecca P
Project Start
1985-07-01
Project End
2006-12-31
Budget Start
2004-01-01
Budget End
2004-12-31
Support Year
18
Fiscal Year
2004
Total Cost
$330,750
Indirect Cost

  Institution

Name
University of California Los Angeles
Department
Type
Other Domestic Higher Education
DUNS #
092530369
City
Los Angeles
State
CA
Country
United States
Zip Code
90095

  Publications

Kumar, Yogesh; Vadivel, Kanagasabai; Schmidt, Amy E et al. (2014) Decoy plasminogen receptor containing a selective Kunitz-inhibitory domain. Biochemistry 53:505-17
Vadivel, Kanagasabai; Ponnuraj, Sathya-Moorthy; Kumar, Yogesh et al. (2014) Platelets contain tissue factor pathway inhibitor-2 derived from megakaryocytes and inhibits fibrinolysis. J Biol Chem 289:31647-61
Vadivel, Kanagasabai; Agah, Sayeh; Messer, Amanda S et al. (2013) Structural and functional studies of ?-carboxyglutamic acid domains of factor VIIa and activated Protein C: role of magnesium at physiological calcium. J Mol Biol 425:1961-1981
Geng, Y; Verhamme, I M; Sun, M F et al. (2013) Analysis of the factor XI variant Arg184Gly suggests a structural basis for factor IX binding to factor XIa. J Thromb Haemost 11:1374-84
Geng, Yipeng; Verhamme, Ingrid M; Messer, Amanda et al. (2012) A sequential mechanism for exosite-mediated factor IX activation by factor XIa. J Biol Chem 287:38200-9
Bajaj, Madhu S; Ogueli, Godwin I; Kumar, Yogesh et al. (2011) Engineering kunitz domain 1 (KD1) of human tissue factor pathway inhibitor-2 to selectively inhibit fibrinolysis: properties of KD1-L17R variant. J Biol Chem 286:4329-40
Messer, A S; Velander, W H; Bajaj, S P (2009) Contribution of magnesium in binding of factor IXa to the phospholipid surface: implications for vitamin K-dependent coagulation proteins. J Thromb Haemost 7:2151-3
Agah, S; Bajaj, S P (2009) Role of magnesium in factor XIa catalyzed activation of factor IX: calcium binding to factor IX under physiologic magnesium. J Thromb Haemost 7:1426-8
Schmidt, Amy E; Sun, Mao-fu; Ogawa, Taketoshi et al. (2008) Functional role of residue 193 (chymotrypsin numbering) in serine proteases: influence of side chain length and beta-branching on the catalytic activity of blood coagulation factor XIa. Biochemistry 47:1326-35
Bajaj, M S; Kuppuswamy, M N; Manepalli, A N et al. (1999) Transcriptional expression of tissue factor pathway inhibitor, thrombomodulin and von Willebrand factor in normal human tissues. Thromb Haemost 82:1047-52

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