Oxidative Stress in Arterial Hypertension

Zalba, Guillermo; José, Gorka San; Moreno, María U.; Fortuño, María Antonia; Fortuño, Ana; Beaumont, Francisco J.; Dı́ez, Javier

doi:10.1161/hy1201.099611

Cited by 374 publications

(263 citation statements)

References 78 publications

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“…Persons with hypertension are at an increased risk for stroke, heart disease, kidney failure, and premature mortality. Free radical induced oxidative stress in part contributes to endothelial dysfunction and development of hypertension [169]. Increased ROS generation eliminates NO • by forming ONOO -, thus reducing NO • bioavailability which leads to decreased endothelium-dependent vasodilation resulting in hypertension [170].…”

Section: Hypertension (Ht)mentioning

confidence: 99%

Free Radicals: Properties, Sources, Targets, and Their Implication in Various Diseases

2014

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Free radicals and other oxidants have gained importance in the field of biology due to their central role in various physiological conditions as well as their implication in a diverse range of diseases. The free radicals, both the reactive oxygen species (ROS) and reactive nitrogen species (RNS), are derived from both endogenous sources (mitochondria, peroxisomes, endoplasmic reticulum, phagocytic cells etc.) and exogenous sources (pollution, alcohol, tobacco smoke, heavy metals, transition metals,

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Section: Hypertension (Ht)mentioning

confidence: 99%

Free Radicals: Properties, Sources, Targets, and Their Implication in Various Diseases

2014

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“…Endothelial cell dysfunction is often associated with hypertension, due to elevated levels of shear stress. Higher levels of shear stress have been shown to damage the endothelium resulting in increased ROS formation, including O 2 ·- (Zalba et al 2001). …”

Section: Hypertensionmentioning

confidence: 99%

“…The reduction in nitric oxide availability is tied to increased O 2 ·-levels, mainly contributed by NADPH oxidase in smooth muscle cells, resulting in NO intereaction with O 2 ·-and the formation of peroxynitrite (ONOO -, (Landmesser et al 2002;Rathaus et al 2002). Loss of the NO-O 2 ·-balance results in cellular damage, contributing to hypertension and the loss of endothelial cell control of vessel dilation (Zalba et al 2001). Angiotensin II also stimulates NADPH oxidase formation of O 2 ·-, resulting in dysfunctional endothelial cells as discussed above (Hanna et al 2002;Landmesser et al 2002;Rocic et al 2003).…”

Section: Hypertensionmentioning

confidence: 99%

Mechanisms of H2O2-induced oxidative stress in endothelial cells

Coyle

Martínez

Coleman

et al. 2006

Free Radical Biology and Medicine

127

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“…In hypertensive patients, vascular smooth muscle cells (VSMCs) from resistance arteries have increased ROS generation, and this increase is linked to NADPH oxidase [16]. Evidence has shown that in SHR and SHRSP rats there was an enhanced production of superoxide (·O 2 ˉ) derived from NADPH oxidase, and this was associated with the upregulation of p22 phox mRNA expression in the aorta [14,17]. Furthermore, NOX2 mRNA expression in the aorta was found to be greater in SHR compared to the normotensive WKY rats [18].…”

Section: Introductionmentioning

confidence: 99%

The effect of short-term canola oil ingestion on oxidative stress in the vasculature of stroke-prone spontaneously hypertensive rats

et al. 2011

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BackgroundThis study aimed to determine if 25 days of canola oil intake in the absence of excess dietary salt or together with salt loading affects antioxidant and oxidative stress markers in the circulation. A further aim was to determine the mRNA expression of NADPH oxidase subunits and superoxide dismutase (SOD) isoforms in the aorta of stroke-prone spontaneously hypertensive (SHRSP) rats.MethodsMale SHRSP rats, were fed a defatted control diet containing 10% wt/wt soybean oil or a defatted treatment diet containing 10% wt/wt canola oil, and given tap water or water containing 1% NaCl. Blood was collected at the end of study for analysis of red blood cell (RBC) antioxidant enzymes, RBC and plasma malondialdehyde (MDA), plasma 8-isoprostane and plasma lipids. The aorta was removed and the mRNA expression of NOX2, p22phox, CuZn-SOD, Mn-SOD and EC-SOD were determined.ResultsIn the absence of salt, canola oil reduced RBC SOD and glutathione peroxidase, and increased total cholesterol and LDL cholesterol compared with soybean oil. RBC glutathione peroxidase activity was significantly lower in both the salt loaded groups compared to the soybean oil only group. In addition, RBC MDA and plasma HDL cholesterol were significantly higher in both the salt loaded groups compared to the no salt groups. Plasma MDA concentration was higher and LDL cholesterol concentration lower in the canola oil group loaded with salt compared to the canola oil group without salt. The mRNA expression of NADPH oxidase subunits and SOD isoforms were significantly reduced in the canola oil group with salt compared to canola oil group without salt.ConclusionIn conclusion, these results indicate that canola oil reduces antioxidant status and increases plasma lipids, which are risk factors for cardiovascular disease. However, canola oil in combination with salt intake increased MDA, a marker of lipid peroxidation and decreased NAPDH oxidase subunits and aortic SOD gene expression.

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Oxidative Stress in Arterial Hypertension

Cited by 374 publications

References 78 publications

Free Radicals: Properties, Sources, Targets, and Their Implication in Various Diseases

Free Radicals: Properties, Sources, Targets, and Their Implication in Various Diseases

Mechanisms of H2O2-induced oxidative stress in endothelial cells

The effect of short-term canola oil ingestion on oxidative stress in the vasculature of stroke-prone spontaneously hypertensive rats

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