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Curr Opin Mol Ther. 2010 Dec;12(6):712-23.

Inflammation, stem cells and atherosclerosis genetics.

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University of Miami Leonard M Miller School of Medicine, Department of Medicine, Rosenstiel Medical Science Building, 1600 NW 10th Avenue, Miami, FL 33136, USA.


Atherosclerosis and its associated complications remain the primary cause of death in humans. Aging is the main contributor to atherosclerosis, compared with any other risk factor, yet the specific manner in which age increases risk (the 'aging-risk' mechanism) remains elusive. A novel concept for atherosclerosis risk implicates a lack of endothelial progenitor cell (EPC)-dependent arterial repair in the development of the disease that is secondary to exhaustion of repair-competent EPCs. Molecular evidence derived from genetic techniques indicates atherosclerotic lesions may begin to form as arterial repair fails, rather than merely following arterial injury. Thus, chronic arterial injury may overwhelm the ability of EPCs to maintain arterial homeostasis, particularly when EPCs capable of arterial repair become exhausted. Recent studies have reported genes identified using non-biased approaches (ie, genetic linkage studies and genome-wide association studies) that are associated with susceptibility for atherosclerosis and related thromboembolic disorders; these genes may be implicated in the control of arterial wall inflammation and EPC-mediated tissue repair. Most of the genes identified by using non-biased genomic techniques are associated with inflammation, immune response and stem cells. This review focuses on new genetic data in the field of atherosclerosis and arterial homeostasis.

[Indexed for MEDLINE]

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