Platelets mediate the initial first-step in hemostasis through adhesive and aggregatory events, additionally providing the negatively charged phospholipid surface required for the contact phase and propagation of the coagulation cascade. A number of agonists cause platelet aggregation in vitro, although only strong agonists such as thrombin expose membrane phospholipid (PL). The molecular mechanisms that link thrombin activation to phospholipid exposure and the profound shape change that develops during cell activation (i.e. platelet adhesion and aggregation) remain poorly characterized, although they retain as their penultimate endpoint the process of actin polymerization. By using """"""""functional genomics,"""""""" we have identified and initially characterized a putative racl/cdc42 effector protein (IQGAP2) uniquely situated within the protease-activated gene cluster on chromosome 5q13. IQGAP2 and its related homologue IQGAP1 are expressed in human platelets, and linked to divergent GTPase pathways in thrombin-stimulated platelets; furthermore, murine platelets deficient in mIQGAP1 display a unique platelet phenotype manifest by dysfunctional calcium signaling and pathological platelet procoagulant activity (with microvesiculation). This competitive renewal of HL49141 will addresses the hypothesis that platelet IQGAPs represent key scaffolding proteins that integrate GTPase and intracytosolic calcium signals to regulate membrane events coordinating cytoskeletal actin reorganization, microvesiculation, and platelet procoagulant activity.
In specific aim 1, we will delineate the signals regulating the dysfunctional mIQGAP -/- platelet phenotype and dissect IQGAP1 and IQGAP2 functions using in vitro model systems;
in specific aim 2, we will determine the molecular mechanisms and phenotypic consequences of the procoagulant abnormality in mIQGAP 1-/- mice, specifically establishing the prothrombotic risk using in vivo models of arterial and microvascular thrombosis;
in specific aim 3, we will adapt a proteomics approach to identify and characterize multifunctional IQGAP complexes that coordinately regulate membrane events during platelet activation. These data will have considerable implications for understanding the molecular mechanisms linking intracellular events to a prothrombotic phenotype.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
2R01HL049141-10A1
Application #
6722574
Study Section
Special Emphasis Panel (ZRG1-HP (03))
Program Officer
Ganguly, Pankaj
Project Start
1993-09-01
Project End
2008-01-31
Budget Start
2004-02-01
Budget End
2005-01-31
Support Year
10
Fiscal Year
2004
Total Cost
$301,000
Indirect Cost
Name
State University New York Stony Brook
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
804878247
City
Stony Brook
State
NY
Country
United States
Zip Code
11794
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Gnatenko, Dmitri V; Zhu, Wei; Bahou, Wadie F (2008) Multiplexed genetic profiling of human blood platelets using fluorescent microspheres. Thromb Haemost 100:929-36
Schmidt, Valentina A; Chiariello, Carmine S; Capilla, Encarnacion et al. (2008) Development of hepatocellular carcinoma in Iqgap2-deficient mice is IQGAP1 dependent. Mol Cell Biol 28:1489-502
Gnatenko, Dmitri V; Perrotta, Peter L; Bahou, Wadie F (2006) Proteomic approaches to dissect platelet function: Half the story. Blood 108:3983-91
Cao, Jian; Chiarelli, Christian; Kozarekar, Pallavi et al. (2005) Membrane type 1-matrix metalloproteinase promotes human prostate cancer invasion and metastasis. Thromb Haemost 93:770-8
Gnatenko, Dmitri V; Cupit, Lisa D; Huang, Emily C et al. (2005) Platelets express steroidogenic 17beta-hydroxysteroid dehydrogenases. Distinct profiles predict the essential thrombocythemic phenotype. Thromb Haemost 94:412-21
Rosenfeldt, Mathias T; Valentino, Michael; Labruzzo, Salvatore et al. (2005) The organomercurial 4-aminophenylmercuric acetate, independent of matrix metalloproteinases, induces dose-dependent activation/inhibition of platelet aggregation. Thromb Haemost 93:326-30
Cao, Jian; Kozarekar, Pallavi; Pavlaki, Maria et al. (2004) Distinct roles for the catalytic and hemopexin domains of membrane type 1-matrix metalloproteinase in substrate degradation and cell migration. J Biol Chem 279:14129-39

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