Abstract

application) There have been many advances in understanding structure/function relationships in vitamin K-dependent proteins including the Gla domains in the ten years since the last renewal of this application. The current frontier in understanding blood coagulation on a molecular basis is determining how the functional macromolecular complexes which facilitate blood coagulation assemble. This application explores the phospholipid binding specificity of prothrombin and the nature of the prothrombin-membrane binding site. In addition, studies are proposed to determine sites of interaction between factor Va and factor Xa and between factor Va and prothrombin. A long-term goal is to determine the structure of the factor Va heavy chain-prothrombin complex. Elucidating the determinants of prothrombinase complex assembly may provide insights into methods of regulating complex formation in pathologic states such as thrombosis. We will determine the potential role of phosphatidylethanolamine in prothrombin activation by prothrombinase. We will also use soluble phospholipids and phospholipid head group analogs to determine the important structural determinants on the phospholipid that mediate prothrombin binding. We will establish the affinity and stoichiometry of soluble phospholipid binding to prothrombin. Data from these studies will assist in design of X-ray crystallographic experiments to determine the mode of interaction of prothrombin fragment 1 with phospholipid. We will proceed step-wise, first determining the structure of the Gla domain of metal free prothrombin fragment 1 at high resolution. Using cryocrystallography we believe we will be able to determine the structure of most of the Gla domain of apo-fragment 1. This portion of the apo-fragment 1 structure has not been previously defined. Next we will determine the structure of prothrombin fragment 1 bound to magnesium ions. Finally we will determine the structure of prothrombin fragment 1 bound to calcium ions and glycerophosphoserine and/or a short chain phospholipid bearing the phosphoserine head group. To localize interaction sites among enzyme, cofactor and substrate in the prothrombinase complex we will use two novel cross-linking strategies. We will determine if the Gla domains of factor X and prothrombin or the EGF domains of factor X interact with factor Va using synthetic peptides with benzoylphenylalanine placed at different positions within the peptide. To determine if the factor X Gla-EGF 1 module or the prothrombin kringle domains interact with factor Va we will use a fibronectin derived transamidation site in conjunction with factor XIIIa. A long-term goal of these studies is to determine, by X-ray crystallography, the structure of factor Va heavy chain-prothrombin fragment 1-calcium complex.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL018834-26
Application #
6030482
Study Section
Special Emphasis Panel (ZRG4-HEM-1 (01))
Project Start
1978-06-01
Project End
2003-06-30
Budget Start
1999-07-01
Budget End
2000-06-30
Support Year
26
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
Beth Israel Deaconess Medical Center
Department
Type
DUNS #
076593722
City
Boston
State
MA
Country
United States
Zip Code
02215

  Publications

Lin, Lin; Huai, Qing; Huang, Mingdong et al. (2007) Crystal structure of the bovine lactadherin C2 domain, a membrane binding motif, shows similarity to the C2 domains of factor V and factor VIII. J Mol Biol 371:717-24
Lacaud, Georges; Kouskoff, Valerie; Trumble, Anne et al. (2004) Haploinsufficiency of Runx1 results in the acceleration of mesodermal development and hemangioblast specification upon in vitro differentiation of ES cells. Blood 103:886-9
Falls, L A; Furie, B C; Jacobs, M et al. (2001) The omega-loop region of the human prothrombin gamma-carboxyglutamic acid domain penetrates anionic phospholipid membranes. J Biol Chem 276:23895-902
Falls, L A; Furie, B; Furie, B C (2000) Role of phosphatidylethanolamine in assembly and function of the factor IXa-factor VIIIa complex on membrane surfaces. Biochemistry 39:13216-22
Blostein, M D; Rigby, A C; Jacobs, M et al. (2000) The Gla domain of human prothrombin has a binding site for factor Va. J Biol Chem 275:38120-6
Bush, K A; Stenflo, J; Roth, D A et al. (1999) Hydrophobic amino acids define the carboxylation recognition site in the precursor of the gamma-carboxyglutamic-acid-containing conotoxin epsilon-TxIX from the marine cone snail Conus textile. Biochemistry 38:14660-6
Furie, B; Bouchard, B A; Furie, B C (1999) Vitamin K-dependent biosynthesis of gamma-carboxyglutamic acid. Blood 93:1798-808
Gillis, S; Furie, B C; Furie, B et al. (1997) gamma-Carboxyglutamic acids 36 and 40 do not contribute to human factor IX function. Protein Sci 6:185-96
Furie, B C; Ratcliffe, J V; Tward, J et al. (1997) The gamma-carboxylation recognition site is sufficient to direct vitamin K-dependent carboxylation on an adjacent glutamate-rich region of thrombin in a propeptide-thrombin chimera. J Biol Chem 272:28258-62
Rigby, A C; Baleja, J D; Li, L et al. (1997) Role of gamma-carboxyglutamic acid in the calcium-induced structural transition of conantokin G, a conotoxin from the marine snail Conus geographus. Biochemistry 36:15677-84

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