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)

We investigated the effects of a 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitor (statin) on the inhibitory effects of an angiotensin II type-1 receptor (AT1) blocker on atherosclerosis and explored cellular mechanisms. We gave apolipoprotein E null mice a high-cholesterol diet for 10 weeks and measured atherosclerotic plaque area and lipid deposition. Neither 1 mg/kg per day of valsartan nor 3 mg/kg per day of fluvastatin had any effect on blood pressure or cholesterol concentration; however, both drugs decreased plaque area and lipid deposition after 10 weeks. We then reduced the doses of both drugs to 0.1 mg/kg per day and 1 mg/kg per day, respectively. At these doses, neither drug had an effect on atherosclerotic lesions. When both drugs were combined at these doses, a significant reduction in atherosclerotic lesions was observed. Similar inhibitory effects of valsartan or fluvastatin on the expressions of nicotinamide-adenine dinucleotide/nicotinamide-adenine dinucleotide phosphate oxidase subunits p22phox and p47phox, production of superoxide anion, the expression of monocyte chemoattractant protein-1, and intercellular adhesion molecule-1 expression were observed. These results suggest that concomitant AT1 receptor and cholesterol biosynthesis blockade, particularly when given concomitantly, blunts oxidative stress and inflammation independent of blood pressure or cholesterol-related effects.
Hypertension 2004 Nov
PMID:Fluvastatin enhances the inhibitory effects of a selective AT1 receptor blocker, valsartan, on atherosclerosis. 1545 25

It is now clear that reactive oxygen species (ROS) can act as signalling molecules in the cerebral circulation under both physiological and pathological conditions. Some major products of superoxide (O(2)(.)(-)) metabolism, such as hydrogen peroxide (H(2)O(2)) and hydroxyl radical (OH(.)), appear to be particularly good cerebral vasodilators and may, surprisingly, represent important molecules for increasing local cerebral blood flow. A major determinant of overall ROS levels in the cerebral circulation is the rate of generation of the parent molecule, O(2)(.)(-). Although the major enzymatic source of O(2)(.)(-) in cerebral arteries is yet to be conclusively established, the two most likely candidates are cyclo-oxygenase and nicotinamide adenine dinucleotide phosphate (reduced form) [NADPH] oxidase. The activity of endogenous superoxide dismutases (SODs) play a vital role in determining levels and effects of all individual ROS derived from metabolism of O(2)(.)(-). The term 'oxidative stress' may be an over-simplification that hides the complexity and diversity of the ROS family in cerebrovascular health and disease. Although a generalised increase in ROS levels seems to occur during several vascular disease states, the consequences of this for cerebrovascular function are still unclear. Because enhanced breakdown of O(2)(.)(-) by SOD will increase the generation of the powerful cerebral vasodilator H(2)O(2), this latter molecule could conceivably act as a compensatory vasodilator mechanism in the cerebral circulation under conditions of elevated O(2)(.)(-) production. Some recent clinical data support the concept of a protective role for cerebrovascular NADPH oxidase activity. Although it is quite speculative at present, if NADPH oxidase were to emerge as a major source of beneficial vasodilator ROS in the cerebral circulation, this may represent a significant dilemma for treatment of ischaemic cerebrovascular conditions, as excessive NADPH oxidase activity is associated with the progression of several systemic vascular disease states, including hypertension and atherosclerosis. Despite data suggesting that antioxidant vitamins can have beneficial effects on vascular function and that their plasma levels are inversely correlated with risk of cardiovascular disease and stroke, the results of several recent large-scale clinical trials of antioxidant supplementation have been disappointing. Future work must establish whether or not increased ROS generation is necessarily detrimental to cerebral vascular function, as has been generally assumed, or whether localised increases in ROS in the vicinity of the arterial wall could be beneficial in disease states for the maintenance of cerebral blood flow.
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PMID:Reactive oxygen species in the cerebral circulation: physiological roles and therapeutic implications for hypertension and stroke. 1545 32

Oxidative stress has emerged as a constant feature of chronic renal failure (CRF). The presence of oxidative stress in CRF is evidenced by an overabundance of lipid, carbohydrate, and protein oxidation products in the plasma and tissues of uremic patients and animals. We recently have shown that oxidative stress in CRF animals is associated with and, in part, owing to up-regulation of superoxide-producing enzyme, nicotinamide-adenine dinucleotide phosphate (NAD(P)H) oxidase, and down-regulation of superoxide dismutase (SOD). The functional significance of these findings was confirmed by favorable response to administration of the cell-permeable SOD-mimetic agent, tempol, in CRF rats. Oxidative stress in CRF plays an important role in the pathogenesis of the associated hypertension (oxidation of NO and arachidonic acid and vascular remodeling), cardiovascular disease (oxidation of lipoproteins, atherogenesis), neurologic disorders (nitration of brain proteins, oxidation of myelin), anemia (reduction of erythrocyte lifespan), inflammation (nuclear factor kappa B activation), fibrosis, apoptosis, and accelerated aging. The CRF-induced oxidative stress is aggravated by diabetes, uncontrolled hypertension, and autoimmune diseases, which independently increase production of reactive oxygen intermediates, and frequently are associated with CRF. In addition, dialysis treatment (blood interaction with dialyzer membrane and dialysate impurities), acute and chronic infections (blood access infection, hepatitis, and so forth), and excessive parenteral iron administration intensify CRF-associated oxidative stress and its adverse consequences in patients with end-stage renal disease. The problem is compounded by limited intake of fresh fruits and vegetables (K(+) restriction), which contain numerous natural phytochemicals and antioxidant vitamins.
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PMID:Oxidative stress in uremia: nature, mechanisms, and potential consequences. 1549 Apr 13

Angiotensin II (AII) contributes to the pathogenesis of many cardiovascular disorders. Oxidant-mediated activation of poly(adenosine diphosphate-ribose) polymerase (PARP) plays a role in the development of endothelial dysfunction and the pathogenesis of various cardiovascular diseases. We have investigated whether activation of the nuclear enzyme PARP contributes to the development of AII-induced endothelial dysfunction. AII in cultured endothelial cells induced DNA single-strand breakage and dose-dependently activated PARP, which was inhibited by the AII subtype 1 receptor antagonist, losartan; the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase inhibitor, apocynin; and the nitric oxide synthase inhibitor, N-nitro-L-arginine methyl ester. Infusion of sub-pressor doses of AII to rats for 7 to 14 d induced the development of endothelial dysfunction ex vivo. The PARP inhibitors PJ34 or INO-1001 prevented the development of the endothelial dysfunction and restored normal endothelial function. Similarly, PARP-deficient mice infused with AII for 7 d were found resistant to the AII-induced development of endothelial dysfunction, as opposed to the wild-type controls. In spontaneously hypertensive rats there was marked PARP activation in the aorta, heart, and kidney. The endothelial dysfunction, the cardiovascular alterations and the activation of PARP were prevented by the angiotensin-converting enzyme inhibitor enalapril. We conclude that AII, via AII receptor subtype 1 activation and reactive oxygen and nitrogen species generation, triggers DNA breakage, which activates PARP in the vascular endothelium, leading to the development of endothelial dysfunction in hypertension.
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PMID:Angiotensin II-mediated endothelial dysfunction: role of poly(ADP-ribose) polymerase activation. 1550 80

The phosphatidylinositol 3-kinase (PI3-K) pathway, which activates serine/threonine protein kinase Akt, enhances endothelial nitric oxide synthase (eNOS) phosphorylation and nitric oxide (NO) production. We investigated the involvement of the PI3-K/Akt pathway in the relaxation responses to acetylcholine (ACh) and clonidine in a new type 2 diabetic model (streptozotocin plus nicotinamide-induced diabetic mice). Plasma glucose and insulin levels were significantly elevated in our model, and intravenous glucose tolerance tests revealed clear abnormalities in glucose tolerance and insulin responsiveness. Although in our model the ACh-induced relaxation and NOx- (NO2-+NO3-)/cGMP production were unchanged, the clonidine-induced and insulin-induced relaxations and NOx-/cGMP production were all greatly attenuated. In control mice, the clonidine-induced and insulin-induced relaxations were each abolished by LY294002 and by Wortmannin (inhibitors of PI3-K), and also by Akt-inhibitor treatment. The ACh-induced relaxation was unaffected by such treatments in either group of mice. The expression level of total Akt protein was significantly decreased in the diabetic mice aorta, but those for the p85 and p110gamma subunits of PI3-K were not. The clonidine-induced Ser-473 phosphorylation of Akt through PI3-K was significantly decreased in our model; however, that induced by ACh was not. These results suggest that relaxation responses and NO production mediated via the PI3-K/Akt pathway are decreased in this type 2 diabetic model. This may be a major cause of endothelial dysfunction (and the resulting hypertension) in type 2 diabetes.
Hypertension 2004 Dec
PMID:Impairment of PI3-K/Akt pathway underlies attenuated endothelial function in aorta of type 2 diabetic mouse model. 1550 17

Recent studies implicate of reactive oxygen species (ROS) in hypertension; however, whether reactive oxygen species promote hypertensive derangements is not fully clear. We thus investigated the effects of an antioxidant, N-acetyl-L-cysteine, on hypertensive Dahl salt-sensitive rats. High-salt intake for 4 weeks markedly elevated systolic arterial pressure, urinary excretion of protein, 8-isoprostane, and H(2)O(2), and the enzyme activity of reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase along with the elevated expression of its subunits gp91phox and p47phox at the levels of mRNA and protein. Supplement with N-acetyl-L-cysteine reduced the increase in systolic arterial pressure and counteracted the elevation of urinary excretion of protein, 8-isoprostane, and H(2)O(2), and the increases in NADPH oxidase activity/expression in high-salt-loaded Dahl salt-sensitive rats. N-acetyl-L-cysteine supplement ameliorated plasma and urinary levels of thromboxane B(2) (an end metabolite of thromboxane A(2)), associated with improvement of both the abnormal contraction and the impaired nitric oxide-dependent relaxation in renal arteries. These results revealed that oxidative stress mediates hypertensive changes in Dahl salt-sensitive rats, because thiol antioxidant N-acetyl-L-cysteine attenuated the augmentation of local ROS production by diminishing the elevation of NADPH oxidase expression and ameliorated renal/vascular hypertensive changes.
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PMID:Effects of thiol antioxidant on reduced nicotinamide adenine dinucleotide phosphate oxidase in hypertensive Dahl salt-sensitive rats. 1552 40

Pathogenesis of the atherosclerotic process is deemed as multi-factorial, and characterized by chronic inflammatory response. Although hypertension is known to be one of the most important risk factors for atherosclerosis in causasians, its relative contribution to early atherosclerosis are still unknown. Increased evidence has indicated that hypertension, through the vasoactive peptides, such as angiotensin and endothelin-1, promotes and accelerates the atherosclerotic process via inflammatory mechanisms. In animal and human studies pro-inflammatory properties of angiotensin II has been demonstrated in large conduit and small arteries, in the kidney as well as in the heart. Activation of oxidative stress by angiotensin II is a key component of this process. Angiotensin II stimulates nicotinamide adenine dinucleotide phosphate/nicotinamide adenine dinucleotide oxidase in endothelium, smooth muscle cells, and the adventitia of blood vessel to generate reactive oxygen species, leading to endothelial dysfunction, growth, and inflammation, upregulation of endothelin-1, adhesion molecules, nuclear factor-kappa B, and other inflammatory mediators, as well as increased breakdown of nitric oxide and uncoupling of nitric oxide synthase, contribute to the progression of vascular disease and atherogenesis. In addition, recent advances concerning role of endothelin-1 as another important mediator of chronic inflammation in the vascular wall has been documented, and relationship between endothelin-1 and angiotensin II on vascular inflammation demonstrated. Inflammatory mechanisms, therefore, are important participants in the pathophysiology of hypertension-related cardiovascular disease, including atherosclerosis. In experimental models as well as human studies of atherosclerosis, angiotensin converting enzyme inhibitors or angiotensin II receptor blockers have demonstrated the ability to prevent or reverse the progression of atherosclerosis, which was in part associated with decreased expression of inflammatory mediators and improve endothelial functions. Based on those increasing evidence, we hypothesize that inflammation may be a bridge connecting hypertension and atherosclerosis.
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PMID:Inflammation may be a bridge connecting hypertension and atherosclerosis. 1578 Apr 86

The endocannabinoid anandamide exerts neurobehavioral, cardiovascular, and immune-regulatory effects through cannabinoid receptors (CB). Fatty acid amide hydrolase (FAAH) is an enzyme responsible for the in vivo degradation of anandamide. Recent experimental studies have suggested that targeting the endocannabinergic system by FAAH inhibitors is a promising novel approach for the treatment of anxiety, inflammation, and hypertension. In this study, we compared the cardiac performance of FAAH knockout (FAAH-/-) mice and their wild-type (FAAH+/+) littermates and analyzed the hemodynamic effects of anandamide using the Millar pressure-volume conductance catheter system. Baseline cardiovascular parameters, systolic and diastolic function at different preloads, and baroreflex sensitivity were similar in FAAH-/- and FAAH+/+ mice. FAAH-/- mice displayed increased sensitivity to anandamide-induced, CB1-mediated hypotension and decreased cardiac contractility compared with FAAH(+/+) littermates. In contrast, the hypotensive potency of synthetic CB1 agonist HU-210 and the level of expression of myocardial CB1 were similar in the two strains. The myocardial levels of anandamide and oleoylethanolamide, but not 2-arachidonylglycerol, were increased in FAAH-/- mice compared with FAAH+/+ mice. These results indicate that mice lacking FAAH have a normal hemodynamic profile, and their increased responsiveness to anandamide-induced hypotension and cardiodepression is due to the decreased degradation of anandamide rather than an increase in target organ sensitivity to CB1 agonists.
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PMID:Hemodynamic profile, responsiveness to anandamide, and baroreflex sensitivity of mice lacking fatty acid amide hydrolase. 1601 13

Inflammation is associated with fibrosis. Angiotensin II-stimulated growth of fibroblasts and an increase in collagen type I synthesis are important component of the cardiac remodeling process in hypertension and chronic ischemia. AngII has been shown to enhance production of reactive oxygen species (ROS) via stimulation of nicotinamide-adenine dinucleotide phosphate (NADPH) oxidase. Recent studies have proposed that stimulation of ROS production by AngII may constitute a means by which this humoral factor contributes to development of tissue injury in organs such as blood vessels, kidney, and the heart. Published studies have shown that PPARgamma ligands can attenuate the expression or activity of NADPH oxidase subunits. Furthermore, it has been shown that PPARs inhibits inflammation by blocking the activation of redox-sensitive transcription factor NFkappaB. Although there is much still to learn about the link of inflammation and fibrosis, PPARs are potential therapeutic targets for treating cardiac fibrosis and perivascular fibrosis.
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PMID:[PPARs and fibrosis]. 1582 26

We evaluated the functional changes in the mitochondrial respiratory chain at the rostral ventrolateral medulla (RVLM), the medullary origin of sympathetic vasomotor tone, in an experimental model of fatal organophosphate poisoning using the insecticide mevinphos (Mev). We also investigated the neuroprotective role of coenzyme Q10 (CoQ10) in this process. Intravenous administration of Mev (1 mg/kg) in Sprague-Dawley rats maintained with propofol elicited an initial hypertension followed by hypotension, accompanied by bradycardia, with death ensuing within 10 min. Enzyme assay revealed a significant depression of the activity of nicotinamide adenine dinucleotide cytochrome c reductase, succinate cytochrome c reductase, and cytochrome c oxidase in the RVLM during this fatal Mev intoxication. ATP production also underwent a significant decrease. Pretreatment by microinjection bilaterally of CoQ10 (4 microg) into the RVLM significantly prevented mortality, antagonized the cardiovascular suppression, and reversed the depressed mitochondrial respiratory enzyme activities, or reduced ATP production in the RVLM induced during Mev intoxication. Our results indicated that dysfunction of mitochondrial respiratory chain and energy production at the RVLM takes place during fatal Mev intoxication. We further demonstrated that CoQ10 provides neuroprotection against Mev-induced cardiovascular depression and fatality through maintenance of activity of the key mitochondrial respiratory enzymes in the RVLM.
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PMID:Neuroprotective role of coenzyme Q10 against dysfunction of mitochondrial respiratory chain at rostral ventrolateral medulla during fatal mevinphos intoxication in the rat. 1596 63

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