Abstract-Fas ligand (FasL) is expressed by cells of the arterial wall and is present in human atherosclerotic lesions.However, the role of FasL in modifying the initiation and progression of atherosclerosis is unclear.
Expression of atheroprotective genes in the blood vessel wall is potentially an effective means of preventing or reversing atherosclerosis. Development of this approach has been hampered by lack of a suitable gene-transfer vector. We used a helper-dependent adenoviral (HDAd) vector to test whether expression of apolipoprotein A-I (apoA-I) in the artery wall could retard the development of atherosclerosis in hyperlipidemic rabbits. Carotid arteries were infused with an HDAd expressing rabbit apoA-I or a "null" HDAd and harvested 2 and 4 weeks later. ApoA-I mRNA and protein were detected only in HDAdApoAI arteries. Lesion size, lipid and macrophage content, and adhesion molecule expression were similar in both groups at 2 weeks. Between 2 and 4 weeks, most of these measures of atherosclerosis increased in HDAdNull arteries, but were stable or decreased in HDAdApoAI arteries (P ≤ 0.04 for all end points in 4-week HDAdApoAI versus HDAdNull arteries). A longer-term study in chow-fed rabbits revealed persistence of HDAd vector DNA and apoA-I expression for ≥48 weeks, with stable vector DNA content and apoA-I expression from 4 to 48 weeks. Expression of apoA-I in arterial endothelium significantly retards atherosclerosis. HDAd provides prolonged, stable expression of a therapeutic transgene in the artery wall.
Overexpression of urokinase plasminogen activator (uPA) in endothelial cells can decrease intravascular thrombosis. However, expression of uPA is increased in atherosclerotic human arteries, which suggests that uPA might accelerate atherogenesis. To investigate whether elevated uPA expression accelerates atherogenesis, we cloned a rabbit uPA cDNA and expressed it in carotid arteries of cholesterol-fed rabbits. uPA gene transfer increased artery-wall uPA activity for at least 1 week, with a return to baseline by 2 weeks. One week after gene transfer, uPA-transduced arteries were constricted, with significantly smaller lumens and thicker walls, but no difference in intimal or medial mass. Two weeks after gene transfer, uPA-and control-transduced arteries were morphologically indistinguishable. By 4 weeks, however, uPA-transduced arteries had 70% larger intimas than control-transduced arteries (P < 0.01) and smaller lumens (P < 0.05). Intimal lesions appeared to be of similar composition in uPA-and control-transduced arteries, except that degradation of elastic laminae was evident in uPA-transduced arteries. These data suggest that elevated uPA expression in atherosclerotic arteries contributes to intimal growth and constrictive remodeling leading to lumen loss. Antagonists of uPA activity might, therefore, be useful in limiting intimal growth and preventing constrictive remodeling. Overexpression of uPA in endothelial cells to prevent intravascular thrombosis must be reconsidered, because this intervention could worsen underlying vascular disease.
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