Human endothelial progenitor cells (hEPC) are recruited to sites of neovascularization where they differentiate into endothelial cells. The signals/factors responsible for hEPC migration and adhesion to sites of injury are not well understood. Elevated levels of adenosine are known to increase mature endothelial cell migration in response to tissue injury. However, the understanding of the role of adenosine in the physiology of hEPC is very limited. Using quantitative polymerase chain reaction and western blot analyses, we detected the expression of the adenosine receptors A₂A, A₂B, and A₃ in hEPC. Stimulation of adenosine receptors using adenosine or the nonselective agonist adenosine-5'-N-ethylcarboxamide (NECA) increased hEPC migration in 1.4-fold and 2.1-fold (P < 0.01), respectively. Stimulation of hEPC using the A₂A-specific agonist CGS-21680 resembled the effect observed in migration when using adenosine or NECA. Consequently, NECA and CGS-21680-stimulated migration of hEPC were reverted using the A₂A receptor antagonist ZM-241385. NECA-stimulated migration was inhibited in dose-dependent manner using MRS-1523 (Ki of 147 ± 0.016 nM), MRS-1754 (Ki of 1900 ± 0.02 nM), or ZM-241385 (Ki of 0.2 ± 0.01 nM). In conclusion, adenosine stimulates hEPC migration by activating A₂A and A₃ but not A₂B receptors and provides evidence to support a role of adenosine in modulating angiogenic capacity of hEPC.
Human endothelial progenitor cells (hEPC) are adult stem cells located in the bone marrow and peripheral blood. Studies have indicated that hEPC play an important role in the recovery and repair of injured endothelium, however, their quantity and functional capacity is reduced in several diseases including hypercholesterolemia. Recently, it has been demonstrated that hEPC express lectin-like oxidized low-density lipoprotein receptor-1 (LOX-1) and its activation by oxidized low-density lipoprotein (ox-LDL) induces cellular dysfunction and apoptosis. This study aimed to investigate whether overexpression of LOXIN, a truncated isoform of LOX-1 that acts as a dominant negative, plays a protective role against ox-LDL-induced apoptosis in hEPC. Human endothelial progenitor cells exposed to ox-LDL showed a significant increase in LOX-1 expression, and apoptosis began at ox-LDL concentrations above 50 μg/mL. All hEPC apoptosed at 200 μg/mL ox-LDL. High LOXIN expression was generated using adenoviral systems in hEPC and SiHa cells transduced with 100 colony-forming units per cell. Transduced LOXIN localized to the plasma membrane and blocked ox-LDL uptake mediated by LOX-1. Overexpression of LOXIN protected hEPC from ox-LDL-induced apoptosis, and therefore maybe a novel way of improving hEPC function and quantity. These results suggest that adenoviral vectors of LOXIN may provide a possible treatment for diseases related to ox-LDL and vascular endothelium dysfunction, including atherosclerosis.
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