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Abstract
Various pathophysiological mechanisms have been implicated in hypertension, but those resulting in vascular dysfunction and remodeling are critical and may help to identify critical pharmacological targets. This mini-review article focuses on central mechanisms contributing to the vascular dysfunction and remodeling of hypertension, increased oxidative stress and impaired nitric oxide (NO) bioavailability, which enhance vascular matrix metalloproteinase (MMP) activity. The relationship between NO, MMP and oxidative stress culminating in the vascular alterations of hypertension is examined. While the alterations of hypertension are not fully attributable to these pathophysiological mechanisms, there is strong evidence that such mechanisms play critical roles in increasing vascular MMP expression and activity, thus resulting in abnormal degradation of extracellular matrix components, receptors, peptides, and intracellular proteins involved in the regulation of vascular function and structure. Imbalanced vascular MMP activity promotes vasoconstriction and impairs vasodilation, stimulating vascular smooth muscle cells (VSMC) to switch from contractile to synthetic phenotypes, thus facilitating cell growth or migration, which is associated with the deposition of extracellular matrix components. Finally, the protective effects of MMP inhibitors, antioxidants and drugs that enhance vascular NO activity are briefly discussed. Newly emerging therapies that address these essential mechanisms may offer significant advantages to prevent vascular remodeling in hypertensive patients.
Highlights
Laboratory of Structural Biology, Institute of Biological Sciences, Federal University of Department of Pharmacology, Ribeirao Preto Medical School, University of Sao Paulo, Department of Morphology, Physiology and Basic Pathology, Faculty of Dentistry of Ribeirao Preto, University of Sao Paulo, Ribeirao Preto, SP 14040-904, Brazil
Phenylephrine (PE), angiotensin II (Ang-II), and endothelin-1 (ET-1) promote vasoconstriction at least in part by inducing reactive oxygen species (ROS) production, and this mechanism is essential to maintain vasoconstriction [4,12,34,35,36,37,38]. Another important mechanism associated with increased oxidative stress is the reduced bioavailability of an endothelium-derived relaxing factor (EDRF) such as nitric oxide (NO), which leads to endothelial dysfunction
2 knockout mice, showed that matrix metalloproteinase (MMP)-2 is required for Ang-II to increase perivascular pro-heparin binding epidermal factor and ofsoluble
Summary
Cardiovascular diseases (CVDs) are the greatest causes of death globally. More people die from CVDs annually than any other cause [1]. Another important mechanism associated with increased oxidative stress is the reduced bioavailability of an endothelium-derived relaxing factor (EDRF) such as NO, which leads to endothelial dysfunction This may result from NO rapidly reacting with several other ROS, O2 − , forming ONOO− [5], which enhances protein nitration and contributes to many pathophysiological mechanisms taking place in the vasculature of hypertensive subjects [4]. INOS knockout mice submitted to myocardial infarction show lower mortality and less oxidative stress and cardiac remodeling when compared to wild-type mice [47,48] These critical mechanisms involving increased MMP activity and tissue ROS concentrations, associated with impaired NO activity, interact with other cellular signaling pathways that cause both functional and proliferative alterations in the vasculature of hypertensive subjects
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