UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The study aim was to investigate the interaction of physical conditioning and chronic ethanol ingestion on blood pressure (BP), heart rate (HR), nitric oxide (NO) and oxidants/antioxidants balance in the plasma of rats. Male Fisher rats were divided into four groups of seven animals each and treated as follows: (1) Control (5% sucrose, orally) daily for 12 weeks; (2) ethanol (4 g kg(-1), orally) daily for 12 weeks; (3) exercise training on treadmill plus sucrose daily for 12 weeks and (4) exercise training on treadmill followed by ethanol (4 g kg(-1), orally) daily for 12 weeks. The body weight, BP and HR were recorded every week. The animals were sacrificed under ether anesthesia after 12 weeks, blood collected in heparinzed vials, plasma isolated and analyzed. The results show that exercise training significantly lowered the weight gain 6-12 weeks in ethanol treated rats compared to ethanol alone or control rats. The mean arterial BP was significantly elevated 6-12 weeks after ethanol ingestion without significant alterations in HR. Exercise training lowered the BP close to the normal control values in ethanol fed rats. Ethanol significantly decreased the plasma NO levels, reduced to oxidized glutathione ratio (GSH/GSSG) and antioxidant enzymes-superoxide dismutase (CuZn-SOD, and Mn-SOD), catalase (CAT) and glutathione peroxidase (GSH-Px) activities while plasma NADPH oxidase activity and malondialdehyde (MDA) levels were significantly elevated compared to control. Exercise training significantly restored the depletion of plasma NO levels, GSH/GSSG ratio, and antioxidant enzyme activities and normalized the MDA levels and NADPH oxidase activity in the plasma of ethanol treated rats. The study concluded that physical conditioning attenuates the chronic ethanol-induced hypertension by augmenting the NO bioavailability and reducing the oxidative stress response in the plasma of rats.
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PMID:Physiological basis for effect of physical conditioning on chronic ethanol-induced hypertension in a rat model. 1671 71

Activities of whole blood glutathione peroxidase (GSH-Px) and erythrocyte superoxide dismutase (SOD) and serum levels of selenium (Se), copper (Cu) and zinc (Zn) were measured in 118 apparently healthy subjects aged 20-60 years from the city of Ponta Delgada, Island of San Miguel, The Azores Archipelago, Portugal. Data were analysed by age/gender, lipid profile and blood pressure as cardiovascular risk factors searching for their relevance when assessing reference values for antioxidant biomarkers. GSH-Px was in the same range, but SOD was significantly lower than in other Portuguese populations. Neither activity differed with gender. GSH-Px activity increased with age, namely in normolipidemic men versus the hyperlipidemic group in which a decrease was observed. This suggests a progressive impairment of GSH-Px with age caused by an enhanced production of oxidant species in hyperlipidemia. GSH-Px was 30% lower in male hypertensives versus normotensives. SOD activity did not relate to age or blood pressure but was 17% higher in the hyperlipidemic men versus the normolipidemic group, suggesting a better antioxidant protection by SOD than by GSH-Px in hyperlipidemia and hypertension. Se was higher in men versus women, particularly in the older subjects, and partly related to hyperlipidemia. Zn levels showed a similar dependency on gender, not related to age or lipid profile. Cu levels were much higher in women than in men in all age or lipid profile classes and decreased in hyperlipidemia. They were lowered with age in both genders, particularly in normolipidemic women. The present research therefore suggests that hyperlipidemia and hypertension do affect antioxidant status and should be considered when assessing antioxidant biomarkers in blood.
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PMID:Whole blood glutathione peroxidase and erythrocyte superoxide dismutase activities, serum trace elements (Se, Cu, Zn) and cardiovascular risk factors in subjects from the city of Ponta Delgada, Island of San Miguel, The Azores Archipelago, Portugal. 1696 62

Oxidative stress is thought to play a critical role in the pathogenesis of hypertension. Protein oxidation is defined here as the covalent modification of a protein induced either directly by reactive oxygen species or indirectly by reaction with secondary by-products of oxidative stress. The aim of our study was to evaluate the protein oxidation and to examine the function of the antioxidative system in sustained and white coat hypertensives (WCH) and compare with normotensives. This study was designed to investigate the protein oxidation parameters [protein carbonyls (PCOs)] in sustained hypertensives (17 males and 20 females) and WCH (18 males and 19 females). PCO and the endogenous antioxidant components protein thiol (P-SH), CuZn-superoxide dismutase (CuZn-SOD) and glutathione (GSH) were analysed using spectrophotometric and kinetic methods. Sustained hypertensive and WCH groups exhibited higher protein oxidation and lower P-SH, CuZn-SOD and GSH activities than normotensives. With regard to these parameters, there was no significant difference between sustained hypertensive and WCH groups. Blood pressure correlates positively with PCO groups and negatively with others. There exists an imbalance between oxidants and antioxidants in WCH because of the increase of oxidants associated with the decrease of antioxidant capacity. This may cause endothelial dysfunction just like in sustained hypertension. It may be necessary to add antioxidants to conventional antihypertensive therapy to balance the oxidative status in WCH.
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PMID:Oxidative stress in human in sustained and white coat hypertension. 1710 61

When working on the regulation of prostacyclin synthase (PGIS), we found that PGIS was selectively inhibited by peroxynitrite (ONOO-), a potent oxidant formed by the combination of superoxide anion and nitric oxide (NO) at a rate of diffusion-controlled. None of the cellular antioxidants studied (i.e. GSH, Vitamins C and E, and others) prevented the inhibition of ONOO- on PGIS. This unexpected behavior was explained by a catalytic reaction of the iron-thiolate center of PGIS with ONOO- anion. In contrast, ONOO- activated both thromboxane A2-synthase and cyclooxygenases. In addition, we demonstrated that sub-micromolar levels of ONOO- inhibited PGI2-dependent vasorelaxation and triggered a PGH2-dependent vasospasm, indicating that ONOO- increased PGH2 formation as a consequence of PGIS nitration. We have subsequently demonstrated that endogenous ONOO- caused PGIS nitration and TxA2 activation in several diseased conditions such as atherosclerotic vessels, hypoxia-reperfusion injury, cytokines-treated cells, diabetes, as well as hypertension. Since NO is produced physiologically it seems that excessive formation of superoxide not only eliminates the vasodilatory, growth-inhibiting, anti-thrombotic and anti-adhesive effects of NO and PGI2 but also allows and promotes an action of the potent vasoconstrictor, prothrombotic agent, growth promoter, and leukocyte adherer, PGH2. We conclude that the nitration of PGIS nitration might be a new pathogenic mechanism for superoxide-induced endothelium dysfunction often observed in vascular diseases such as atherosclerosis, hypertension, ischemia, endotoxic shock, and diabetes.
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PMID:Peroxynitrite and protein tyrosine nitration of prostacyclin synthase. 1716 39

The aim of this study is to investigate GSTM1, GSTT1 and MTHFR genetic polymorphisms and its relation with total plasma glutathione (tGSH) levels in hypertension. Genotype distributions of GSTM1 and GSTT1 deletion polymorphisms and C677T variant of MTHFR were examined in a sample of 94 hypertensive patients with congestive heart failure and 207 healthy unrelated Portuguese individuals using PCR techniques. Plasma GST activity was determined spectrophotometrically. The antioxidant status was evaluated by fluorometric assays of tGSH. Genotype distributions of GSTT1 (chi2 test; p < 0.01) and MTHFR (chi2 test; p < 0.01) differ significantly between control and hypertensive patients with a greater prevalence of "non-null GSTT1/M1" and CT (heterozygous) genotypes. Moreover, GST activity and tGSH were markedly decreased in hypertension but there is no correlation with the studied polymorphisms. GSH depletion confirmed the possible involvement of oxidative stress in this pathology. Deletion of GSTT1 gene might be considered as protective factor for hypertension.
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PMID:GST M1/T1 and MTHFR polymorphisms as risk factors for hypertension. 1718 5

The present study was undertaken to evaluate the protective effect of thymoquinone (TQ), the main constituent of the volatile oil from Nigella sativa seeds, in rats after chronic inhibition of nitric oxide synthesis with N(omega)-nitro-l-arginine methyl esters (l-NAME). Rats were divided randomly into different treatment groups: control, l-NAME, TQ and l-NAME + TQ. Hypertension was induced by 4 weeks administration of l-NAME (50 mg/kg/day p.o.). TQ was administered alone or in combination with l-NAME and continued for 4 weeks. The animals were killed, and the serum and kidney tissues were isolated for the determination of creatinine and glutathione (GSH), respectively. Rats receiving l-NAME showed a progressive increase in systolic blood pressure compared with control rats. Concomitant treatment with TQ (0.5 and 1 mg/kg/day p.o.) reduced the increase in systolic blood pressure induced by l-NAME in a dose dependent manner. Kidney injury was demonstrated by a significant increase in serum creatinine and a decrease in GSH in kidney tissue from l-NAME treated rats. Treatment of rats with TQ decreased the elevated creatinine and increased GSH to normal levels. TQ inhibited the in vitro production of superoxide radical in enzymatic and non-enzymatic systems. In conclusion, TQ is effective in protecting rats against l-NAME-induced hypertension and renal damage possibly via antioxidant activity.
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PMID:Thymoquinone supplementation attenuates hypertension and renal damage in nitric oxide deficient hypertensive rats. 1723 76

Mercury, cadmium, and other heavy metals have a high affinity for sulfhydryl (-SH) groups, inactivating numerous enzymatic reactions, amino acids, and sulfur-containing antioxidants (NAC, ALA, GSH), with subsequent decreased oxidant defense and increased oxidative stress. Both bind to metallothionein and substitute for zinc, copper, and other trace metals reducing the effectiveness of metalloenzymes. Mercury induces mitochondrial dysfunction with reduction in ATP, depletion of glutathione, and increased lipid peroxidation; increased oxidative stress is common. Selenium antagonizes mercury toxicity. The overall vascular effects of mercury include oxidative stress, inflammation, thrombosis, vascular smooth muscle dysfunction, endothelial dysfunction, dyslipidemia, immune dysfunction, and mitochondrial dysfunction. The clinical consequences of mercury toxicity include hypertension, CHD, MI, increased carotid IMT and obstruction, CVA, generalized atherosclerosis, and renal dysfunction with proteinuria. Pathological, biochemical, and functional medicine correlations are significant and logical. Mercury diminishes the protective effect of fish and omega-3 fatty acids. Mercury, cadmium, and other heavy metals inactivate COMT, which increases serum and urinary epinephrine, norepinephrine, and dopamine. This effect will increase blood pressure and may be a clinical clue to heavy metal toxicity. Cadmium concentrates in the kidney, particularly inducing proteinuria and renal dysfunction; it is associated with hypertension, but less so with CHD. Renal cadmium reduces CYP4A11 and PPARs, which may be related to hypertension, sodium retention, glucose intolerance, dyslipidemia, and zinc deficiency. Dietary calcium may mitigate some of the toxicity of cadmium. Heavy metal toxicity, especially mercury and cadmium, should be evaluated in any patient with hypertension, CHD, or other vascular disease. Specific testing for acute and chronic toxicity and total body burden using hair, toenail, urine, serum, etc. with baseline and provoked evaluation should be done.
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PMID:The role of mercury and cadmium heavy metals in vascular disease, hypertension, coronary heart disease, and myocardial infarction. 1740 90

Primary aldosteronism (PA) is the most common cause of mineralocorticoid hypertension. Different studies, using the plasma aldosterone concentration to plasma renin activity ratio (PAC/PRA) for the screening of patients with hypertension, have shown a marked increase in the detection rate of PA. Idiopathic bilateral adrenal hyperplasia (IHA) and aldosterone-producing adrenal adenoma (APA), are the leading causes of primary aldosteronism. Glucocorticoid-remediable aldosteronism (GRA), also called familial hyperaldosteronism type I, familial hyperaldosteronism type II and carcinomas are rare causes of PA. Patients with hypertension and hypokalemia, those with a family history of hypertension and stroke at an early age, or patients with medication-resistant hypertension should be screened for PA using the PAC/PRA ratio. If a high ratio is found, a sodium loading test or a captopril test is warranted to confirm the diagnosis. Adrenal gland imaging is important in subtype differentiation (APA vs IHA). Adrenal venous sampling should be used when other tests prove inconclusive. Genetic testing has facilitated detection of GRA. Surgery is considered the treatment of choice for patients with APA, while bilateral hyperplasia subtypes are treated medically. Normalization of aldosterone levels or aldosterone receptor blockade are necessary to prevent the morbidity and mortality associated with hypertension, hypokalemia, and cardiovascular damage.
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PMID:Detecting and treating primary aldosteronism: primary aldosteronism. 1742 5

1. Hypertension leads to oxidative stress, lipid and protein damage, apoptosis and impaired cardiac contractile function. However, impact of gender on these hypertension-associated abnormalities has not been elucidated. 2. The present study evaluated the oxidative stress, lipid/protein damage, apoptosis in heart and brain tissues as well as cardiomyocyte contractile function in Wistar Kyoto (WKY) and spontaneously hypertensive rats (SHR) of both genders. Oxidative stress, lipid peroxidation, protein damage and apoptosis were assessed by glutathione (GSH) : reduced glutathione (GSSG) ratio, malondialdehyde (MDA) levels, protein carbonyl levels and caspase-3 activity, respectively. Cardiomyocyte contractile function was examined including peak shortening (PS), time-to-PS (TPS), time-to-90% relengthening (TR90) and maximal velocity of shortening/relengthening (+/-dL/dt). The SHR cardiomyocytes displayed reduced PS and +/-dL/dt compared with gender-matched WKY counterparts. Male but not female SHR cardiomyocytes possessed longer resting cell length, normal TPS and prolonged TR90. All mechanical parameters were comparable between male and female WKY rats with the exception of a higher TR90 in females. Hypertension did not significantly affect the GSH : GSSG ratio in the heart and brain tissues of either gender. Brain from female WKY rats displayed a reduced GSH : GSSG ratio. The MDA levels were unchanged and elevated, respectively, in SHR heart and SHR brain tissues from both genders. Protein carbonyl formation and caspase-3 activity were elevated in male but not female SHR hearts. Nonetheless, brain protein carbonyl level and caspase-3 activity were unaffected by hypertension or gender. 3. In summary, these results suggest that gender affects hypertension-associated oxidative stress, lipid and protein damage, apoptosis in heart and brain tissues and cardiomyocyte contractile function.
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PMID:Influence of gender on oxidative stress, lipid peroxidation, protein damage and apoptosis in hearts and brains from spontaneously hypertensive rats. 1743 12

The aim of this study was to investigate the relationship between chronic ethanol-induced increase in blood pressure (BP) and alterations in the aortic nitric oxide (NO) and the antioxidant systems in rats. Male Fisher rats (200-250 g) were divided into two groups of six animals each and treated as follows: 1) control (5% sucrose, orally) daily for 12 weeks and 2) 20% ethanol (4 g/kg, orally) daily for 12 weeks. The BP (systolic, diastolic and mean) was recorded every week through tail-cuff method. The animals were sacrificed 12 weeks after treatments and thoracic aorta was collected and analysed. The results show that systolic, diastolic and mean BP was significantly elevated 12 weeks after ethanol ingestion in rats compared to control. The endothelial nitric oxide synthase (eNOS) and vascular endothelial growth factor (VEGF) expressions were down-regulated (50-55% of control) leading to depletion of aortic NO levels (69% of control) in ethanol treated rats compared to control. The ratio of reduced to oxidized glutathione (GSH/GSSG) was significantly depleted (58% of control) in the aorta of ethanol-treated rats compared to control. The decrease in aortic GSH/GSSG ratio was good correlated with increase in BP (r = 0.69). The antioxidant enzymes: copper/zinc-superoxide dismutase (CuZn-SOD) and manganese (Mn)-SOD, catalase (CAT) and glutathione peroxidase (GSH-Px) activities were significantly depressed (36-53% of control) in the aorta of ethanol-treated rats compared to control. The study concluded that chronic ethanol ingestion induces hypertension which relates to the vascular endothelial dysfunction on account of the down-regulation of aortic endothelial antioxidants and NO generating system in rats.
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PMID:Down regulation of aortic nitric oxide and antioxidant systems in chronic alcohol-induced hypertension in rats. 1762 67

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