Outline
- Reactive Oxygen Species
- Cellular and Enzymatic Sources of Ros in the Vessel Wall
- Biochemical Consequences of Ros Production in the Vessel Wall
- Monitoring Ros Formation in Vivo
- Conclusion
- References
رئوس مطالب
- چکیده
- منابع سلولی و آنزیمی ROS در دیواره مجاری
- پیامدهای بیوشیمیایی تولید ROS تولید در دیواره مجاری
- نظارت بر شکل گیری ROS در داخل بدن
- نتیجه گیری
Abstract
Oxidative stress has been associated with diverse pathophysiological events, including cancer, renal disease, and neurodegeneration. More recently, it has become apparent that reactive oxygen species (ROS) also play a role in the development of vasculopathies, including those that define atherosclerosis, hypertension, and restenosis after angioplasty. The “response to injury” hypothesis developed by Russell Ross in the late 1970s suggested that atherosclerosis, at least, resulted from an initial injury to endothelial cells, leading to impaired endothelial function and subsequent macrophage infiltration and smooth muscle dysfunction. Many investigators then focused on oxidation of LDL and its interaction with the endothelium as the initial injury leading to the formation of fatty streaks and ultimately atherogenesis. It is now clear not only that diverse ROS are produced in the vessel wall, but that they individually and in combination contribute to many of the abnormalities associated with vascular disease.
Keywords: atherosclerosis - hypertension - oxygen - reactive oxygen species - restenosisConclusions
In vitro studies unequivocally demonstrate that all vascular cells produce ROS and that ROS mediate diverse physiological functions in these cells. The short half-life of these species makes them ideal signaling molecules, but it also confounds their measurement in complex biological systems. Nonetheless, advances have been made in the development of reliable assays, and in Part II of this review, we will discuss their in vivo application and the data supporting a role for oxidative stress in the development of cardiovascular disease.