This application is a competitive renewal for RO1 HL62526: """"""""Myeloperoxidase, Oxidant Stress and Atherogenesis."""""""" Four years ago we hypothesized that monocytes use myeloperoxidase (MPO) to generate species that contribute to oxidative stress, cellular injury and conversion of LDL into an atherogenic form. During the conduct of this research we demonstrated mechanisms of how leukocyte MPO may participate in host defenses, inflammatory injury, and atherosclerosis. Despite the many links between MPO, oxidant stress, and coronary artery disease (CAD), many critical questions remain. For example, direct demonstration of a causal role for the enzyme in disease development and progression remains to be established. Further, the role of oxidation in atherogenesis has recently been questioned based upon the failure of multiple """"""""antioxidant"""""""" trials. The present proposal is both an extension of our earlier research, and a direct effort to address these questions. It is predicated upon the hypothesis that MPO and oxidative stress are mechanistically linked to the development of cardiovascular disease. It integrates studies on basic mechanisms with a search for specific reaction products that reveal whether relevant pathways operate in human disease, and in animal models of inflammation. In preliminary studies we present evidence for a novel catalytic activity for MPO which may enable the enzyme to participate in endothelial dysfunction in CAD. We demonstrate pathways through which MPO catalysis leads to formation of reactive aldehydic intermediates that are cytotoxic and implicated in atherogenesis. We demonstrate that MPO and systemic measures of its activity are linked to atherosclerotic risk and oxidant stress in vivo. The overall goals of this proposal are to: (i) provide mechanistic insights into novel pathways of MPO catalysis and function; (ii) test the hypothesis that MPO generates cytotoxic aldehydes that promote cellular injury and oxidant stress in vivo; and (iii) use a combination of genetic and biochemical approaches to define the role of MPO and specific oxidation pathways in development of cardiovascular disease in humans. ? ?

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
7R01HL062526-06
Application #
6722794
Study Section
Metabolism Study Section (MET)
Program Officer
Srinivas, Pothur R
Project Start
1999-05-01
Project End
2004-07-31
Budget Start
2004-04-01
Budget End
2004-07-31
Support Year
6
Fiscal Year
2004
Total Cost
$127,500
Indirect Cost
Name
Cleveland Clinic Lerner
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
135781701
City
Cleveland
State
OH
Country
United States
Zip Code
44195
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