Abstract

As part of our long-term goal to develop new approaches to treat thrombotic diseases, we will investigate a novel mechanism that links platelets, inflammation and thrombosis. Platelets are crucial for the process of thrombosis, but are not widely considered as key elements in inflammation. An emerging view of platelets is that they contain and produce many immunomodulatory and proinflammatory mediators including CD40 ligand (CD40L), prostaglandins and cytokines. Platelets are not thought to possess transcription factors. However, our compelling preliminary data demonstrate that the transcription factor peroxisome proliferators activated receptor gamma (PPARgamma), believed only present in nucleated cells to regulate lipid metabolism, is highly expressed by platelets. Further, our experiments show that small molecule PPARgamma agonists, such as rosiglitazone and prostaglandin J2, inhibit platelet aggregation and ATP release. Remarkably, PPARgamma agonists inhibit the thrombin-induced production and release of key platelet mediators of inflammation including CD40L and thromboxanes. These findings are important because (1) thrombin is an extremely potent platelet activator, and (2) rosiglitazone and similar agents are already widely clinically employed in patients with diabetes. In addition to CD40L's known critical role in inflammation and atherosclerosis, it is now recognized as a primary platelet agonist important in thrombosis. CD40L is also a marker for disease activity and prognosis in cardiac and vascular diseases. Therefore, platelet PPARgamma is a new and previously unsuspected potential target to attenuate thrombosis, vascular injury and inflammation. We have developed the overall hypothesis that the transcription factor PPARgamma is expressed by platelets and modulates their ability to become activated and to produce mediators of inflammation that contribute to vascular injury. To provide a scientific framework to evaluate PPARgamma agonists as a possible therapy for thrombosis and inflammation, we will answer the following questions posed as our specific aims.
Aim 1 : What are the subcellular locations of platelet PPARgamma and what are the effects of PPARgamma agonists on platelet release of key proinflammatory mediators? Aim 2: How do PPARgamma agonists inhibit platelet activation and function? Aim 3: What is the significance of the PPARgamma protein that is expelled from platelets after activation? Completion of these studies will provide a scientific justification for clinical trials that employ existing PPARgamma agonists to attenuate atherothrombotic disease through modulation of platelet thrombotic and inflammatory functions.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL078603-02
Application #
6952338
Study Section
Special Emphasis Panel (ZHL1-CSR-I (S1))
Program Officer
Hasan, Ahmed AK
Project Start
2004-09-24
Project End
2008-08-31
Budget Start
2005-09-01
Budget End
2006-08-31
Support Year
2
Fiscal Year
2005
Total Cost
$312,000
Indirect Cost

  Institution

Name
University of Rochester
Department
Public Health & Prev Medicine
Type
Schools of Dentistry
DUNS #
041294109
City
Rochester
State
NY
Country
United States
Zip Code
14627

  Publications

Lannan, Katie L; Sahler, Julie; Spinelli, Sherry L et al. (2013) Transfusion immunomodulation--the case for leukoreduced and (perhaps) washed transfusions. Blood Cells Mol Dis 50:61-8
Henrichs, Kelly F; Howk, Nedda; Masel, Debra S et al. (2012) Providing ABO-identical platelets and cryoprecipitate to (almost) all patients: approach, logistics, and associated decreases in transfusion reaction and red blood cell alloimmunization incidence. Transfusion 52:635-40
Rogers, Mary A M; Levine, Deborah A; Blumberg, Neil et al. (2012) Antigenic challenge in the etiology of autoimmune disease in women. J Autoimmun 38:J97-J102
Rogers, Mary A M; Blumberg, Neil; Heal, Joanna M et al. (2011) Role of transfusion in the development of urinary tract-related bloodstream infection. Arch Intern Med 171:1587-9
Refaai, Majed A; Fialkow, Lawrence B; Heal, Joanna M et al. (2011) An association of ABO non-identical platelet and cryoprecipitate transfusions with altered red cell transfusion needs in surgical patients. Vox Sang 101:55-60
Grimshaw, Katie; Sahler, Julie; Spinelli, Sherry L et al. (2011) New frontiers in transfusion biology: identification and significance of mediators of morbidity and mortality in stored red blood cells. Transfusion 51:874-80
Sahler, Julie; Grimshaw, Katie; Spinelli, Sherry L et al. (2011) Platelet storage and transfusions: new concerns associated with an old therapy. Drug Discov Today Dis Mech 8:e9-e14
Ramirez, Servio H; Fan, Shongshan; Dykstra, Holly et al. (2010) Dyad of CD40/CD40 ligand fosters neuroinflammation at the blood-brain barrier and is regulated via JNK signaling: implications for HIV-1 encephalitis. J Neurosci 30:9454-64
Blumberg, Neil; Heal, Joanna M; Phillips, Gordon L (2010) Platelet transfusions: trigger, dose, benefits, and risks. F1000 Med Rep 2:5
Stewart, Judith C; Chalupa, David C; Devlin, Robert B et al. (2010) Vascular effects of ultrafine particles in persons with type 2 diabetes. Environ Health Perspect 118:1692-8

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