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THROMBIN INTERACTIONS WITH FIBRIN AND FIBRINOGEN

凝血酶与纤维蛋白和纤维蛋白原的相互作用

基本信息

批准号：
6389802
负责人：
Michael W Mosesson
金额：
$ 27.33万
依托单位：
VERSITI WISCONSIN, INC.
依托单位国家：
美国
项目类别：
财政年份：
1998
资助国家：
美国
起止时间：
1998-08-01 至 2003-06-30
项目状态：
已结题

项目摘要

Our long range goal is to understand each of the biological functions of fibrinogen and fibrin. Our specific aims in this proposal are to define and characterize thrombin-fibrin and thrombin-fibrinogen binding interactions. Thrombin binding to fibrin occurs through its exosite at 'non-substrate' sites, and also in fibrinogen at a 'substrate recognition' site. We will investigate the non-substrate thrombin-binding sites on fibrin, one of which is of low affinity, located near to or contiguous with the fibrinogen substrate recognition site in the E domain (Aim 1). The other site, of high affinity, is located in the carboxyl-terminal region of gamma' chains, which are normal minor (approximately 10%) gamma chain variants. Using a fibrin clot system to measure thrombin binding, we will quantify the interactions at each type of thrombin binding site in fibrin, characterize their structures, and determine the exact gamma' sequences accounting for thrombin binding. We will also determine the crystal structure of thrombin-gamma' peptide complexes to further characterize the thrombin-gamma' chain interaction. Several functional aspects of the thrombin-fibrin binding interaction will be investigated, including: 1) the effect of thrombin binding to fibrin(ogen) on thrombin receptor-mediated platelet aggregation, and on thrombin receptor cleavage in a cell system expressing the thrombin receptor; 2) the mechanism of non-enzymatic thrombin-mediated acceleration of fibrin polymerization; 3) the effect of the gamma ' sequence on fibrinogen to fibrin conversion, fibrin assembly, and fibrin polymer structure; 4) the mechanism of suppressed fibrinolysis in gamma '-containing fibrin. We will also examine thrombin-fibrinogen binding interactions at the substrate recognition site (Aim 2) using active-site inhibited thrombins (e.g., D419N thrombin) to characterize and quantify the thrombin-fibrinogen binding interaction. Using native fibrinogen or proteolytically modified fibrinogen lacking portions of the substrate recognition site, and peptides that are homologous with structures in the central E domain of fibrin(ogen), we will map the substrate recognition site, and homologous with structures in the central E domain of fibrin(ogen), we will map the substrate recognition site, and compare its constituent structures with those comprising the low affinity non-substrate site in fibrin. In summary, our investigations will elucidate the structural and functional roles of the gamma' sequence and the non-substrate thrombin binding site in the fibrin E domain, delineate the constituent structures comprising the fibrinogen substrate recognition site, and characterize and quantify the mechanics of binding with thrombin. These studies will contribute to our understanding of the roles) of thrombin-fibrin(ogen) interactions in mediating fibrin clot formation, clinical thrombosis, fibrinolysis, and wound healing.

我们的长期目标是了解每一种生物功能