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SIGNIFICANCE: Endothelial dysfunction and the imbalance between nitric oxide (NO) and reactive oxygen species production in the vascular endothelium are important early steps in atherogenesis, a major socioeconomic health problem. Statins have well-established roles in primary and secondary prevention of cardiovascular disease (CVD), due to both their lipid-lowering capacity and their pleiotropic properties. It is therefore important to understand the mechanisms by which statins can modify endothelial function and affect atherogenesis. RECENT ADVANCES: In the last decade, the concept of statin pleiotropy has been reinforced by a large number of cell culture, animal, and translational studies. Statins have been shown to suppress the activity of pro-oxidant enzymes (such as NADPH oxidase) and pro-inflammatory transcriptional pathways in the endothelium. At the same time, they enhance endothelial NO synthase expression and activity while they also improve its enzymatic coupling. This leads to increased NO bioavailability and improved endothelial function. CRITICAL ISSUES: Despite significant recent advances, the exact mechanisms of statin pleitropy are still only partially understood. The vast majority of the published literature relies on animal studies, while the actual mechanistic studies in humans are limited. FUTURE DIRECTIONS: The success of statins as endothelium redox-modifying agents with a direct impact on clinical outcome highlights the importance of the endothelium as a therapeutic target in CVD. Better understanding of the mechanisms that underlie endothelial dysfunction could lead to the design of novel therapeutic strategies that target the vascular endothelium for the prevention and treatment of CVD.

Original publication

DOI

10.1089/ars.2013.5430

Type

Journal article

Journal

Antioxid Redox Signal

Publication Date

10/03/2014

Volume

20

Pages

1198 - 1215

Keywords

Animals, Atherosclerosis, Endothelium, Vascular, Humans, Hydroxymethylglutaryl-CoA Reductase Inhibitors, NADPH Oxidases, Nitric Oxide Synthase Type III, Oxidation-Reduction, Oxidative Stress, Reactive Oxygen Species, Transcriptome