Projects and Grants per year
Grants and Contracts Details
Description
Atherosclerosis is the leading cause of mortality in the western world. Unlike LDL, HDL levels are inversely
correlated with the risk of atherosclerosis. HDL exerts its protective effect through several putative
mechanisms, in large part through its ability to promote the so-called reverse cholesterol transport pathway.
Atherosclerosis and inflammation share intimate associations and the atherosclerotic process exhibits
features of a chronic inflammation. Inflammation is known to significantly alter HDL structure and
composition, as well as plasma levels of HDL cholesterol and apolipoproteins, but the underlying
.mechanisms and the consequences of such changes on atherosclerotic disease are not understood. In
studying the impact of HDL on atherosclerosis, it is therefore critical to understand how HDL may be
modified as a result of inflammation, both systemically and within the inflammatory microenvironment of the
atherosclerotic lesion. The Central Unifying Theme of this program project is an understanding of how
inflammation alters HOL structure and metabolism and how such changes influence the development of
atherosclerosis. The program comprises three inter-dependent and synergistic projects to address these
questions: Project 1, "HDL structure and metabolism during inflammation" (PI, Frederick C. de Beer), will
address how inflammation alters HDL remodeling through the actions of secreted phospholipases, SM and
CETP; Project 2, "Inflammation, HDL and Class B Scavenger Receptors" (PI, van der Westhuyzen) will
determine how inflammation and SM impact cellular lipid trafficking by Class B scavenger receptors; Project
3, "Macrophagecholesterol efflux during inflammation"(PI, Nancy R. Webb), will investigatethe effect of
inflammatory modifications of HDL on macrophage cholesterol efflux and atherosclerotic risk. The major
goals of the program are to understand how HDL structure and metabolism are altered during inflammation
and to determine how such changes influence HOL's function, particularly its roles in cellular cholesterol
efflux and plasma cholesterol transport and its influence on atherosclerosis. The program is expected to
make significant contributions towards elucidating how the inflammatory process affects HOL and cholesterol
metabolism and the extent to which such effects impact atherosclerotic disease.
Status | Finished |
---|---|
Effective start/end date | 4/1/07 → 3/31/13 |
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Projects
- 1 Finished
-
HDL Function and Metabolism During Inflammation Admin Core A
Van Der Westhuyzen, D., Webb, N. & de Beer, F.
National Heart Lung and Blood Institute
4/1/07 → 3/31/13
Project: Research project