Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In both animal models and humans, increased blood pressure has been associated with oxidative stress in the vasculature, i.e. an excessive endothelial production of reactive oxygen species (ROS), which may be both a cause and an effect of hypertension. In addition to NADPH oxidase, the best characterized source of ROS, several other enzymes may contribute to ROS generation, including nitric oxide synthase, lipoxygenases, cyclo-oxygenases, xanthine oxidase and cytochrome P450 enzymes. It has been suggested that also mitochondria could be considered a major source of ROS: in situations of metabolic perturbation, increased mitochondrial ROS generation might trigger endothelial dysfunction, possibly contributing to the development of hypertension. However, the use of antioxidants in the clinical setting induced only limited effects on human hypertension or cardiovascular endpoints. More clinical studies are needed to fully elucidate this so called "oxidative paradox" of hypertension.
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PMID:The molecular sources of reactive oxygen species in hypertension. 1856 95

Aloe species are traditionally prescribed for hypertension, burning, and rheumatoid arthritis. To elucidate the mechanism of the antihypertensive and anti-inflammatory activities of this herb, the ethanol fraction from A. saponaria Haw. was evaluated for antioxidative activity using xanthine-xanthine oxidase (XO) assay, 2,2-Diphenyl-lpicrylhydrazyl radical (DPPH) assay, lipopolysaccharide (LPS)-induced nitric oxide (NO) production in RAW 264.7 cell, and antinociceptive activity using a tail-flick assay and hind paw pressure assay in cisplatin-treated hyperalgesic rats. The ethanol fraction displayed potent antioxidative activities in XO assay. In addition, ethanol fractions showed potent scavenging effects in DPPH assay. We next examined whether ethanol fractions showed anti-inflammatory activities. Ethanol fractions significantly suppressed NO production from LPS-activated RAW264.7 cells. As expected, ethanol fractions dose-dependently inhibited the messenger RNA expression of inducible NO synthase (iNOS). Moreover, ethanol fractions potently suppressed the expression of cycloxygenase (COX)-2 and granulocyte-macrophage colony-stimulating factor (GM-CSF), which are stimulated by LPS in RAW264.7 cells. In addition, ethanol fractions significantly blocked cisplatin-induced hyperalgesia using tail-flick assay and hind paw pressure test in rats. Taken altogether, ethanol extracts of aloe may be useful as a functional food or as a drug against reactive oxygen species (ROS) mediated diseases.
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PMID:Evaluation of antioxidant, antinociceptive, and anti-inflammatory activities of ethanol extracts from Aloe saponaria Haw. 1868 13

Hyperuricemia and oxidative stress participate in the pathophysiology of hypertension and its complications. Xanthine dehydrogenase (XDH) produces urate and, in its oxidase isoform, reactive oxygen species. Here we have studied whether or not the genetic variations in XDH could be implicated in hypertension and its complications. By sequencing the promoter region and all exons of XDH in 48 subjects, we identified three missense mutations (G172R, A932T, N1109T) in a heterozygous state in addition to 34 variations, including 15 common single nucleotide polymorphisms (SNPs). The three missense mutations and eight common SNPs (11488C>G, 37387A>G, 44408A>G, 46774G>A, 47686C>T, 49245A>T, 66292C>G, and 69901A>C) were genotyped in 953 hypertensive Japanese subjects and in 1,818 subjects from a general Japanese population. Four hypertensive patients with rare missense mutations (G172R or N1109T) in homozygous form had severe hypertension. Multivariate logistic regression analysis showed a significant association of three SNPs with hypertension in men: 47686C>T (exon 22, odds ratio [OR]: 1.52, p = 0.047) and 69901A>C (intron 31, OR: 3.14, p = 0.039) in the recessive model, and 67873A>C (N1109T) (exon 31, OR: 1.84, p = 0.018) in the dominant model. After full adjustment for all confounding factors, only one polymorphism (69901A>C) was found to be associated with carotid atherosclerosis in the dominant model (p = 0.028). Multiple logistic regression analysis showed that one SNP (66292C>G) was significantly associated with chronic kidney disease (CKD: estimated creatinine clearance < 60 ml/min) in the recessive model (p = 0.0006). Our results suggest that genetic variations in XDH contribute partly to hypertension and its complications, including atherosclerosis and CKD.
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PMID:Associations of hypertension and its complications with variations in the xanthine dehydrogenase gene. 1871 49

It is widely recognized that L-NAME exposed rats develop myocardial fibrosis and hypertrophy. The aim of this study was to evaluate the contribution of xanthine oxidase (XO) to these phenomena using allopurinol, isolated or associated with olmesartan. Thirty adult male Wistar rats were divided into 5 groups (n=6) and studied for 5 weeks: L group (L-NAME, 40mg/kg/day); L+A group (L-NAME and allopurinol, 40 mg/kg/day); L+O group (L-NAME and olmesartan, 15mg/kg/day); L+A+O group (L-NAME, allopurinol, and olmesartan); and control group. L-NAME caused arterial hypertension and cardiomyocyte hypertrophy. Hypertension was prevented by olmesartan, but not by allopurinol. There was an increase of left ventricular mass index in the L-NAME group that was prevented by allopurinol, olmesartan and by the combination of both. The increase in mean cardiomyocyte transversal area caused by L-NAME was prevented by the allopurinol and olmesartan combination, or by olmesartan used as monotherapy, but not by allopurinol alone. There was a reduction in the myocardial vascularization index caused by L-NAME which was abolished by allopurinol or by olmesartan, but not by the association. L-NAME caused a reduction in the total number of cardiomyocyte nuclei. This was prevented by olmesartan alone or associated with allopurinol, but not by allopurinol alone. We conclude that XO has an important contribution to adverse cardiac remodeling in L-NAME exposed animals. Moreover, allopurinol acts without interfering with L-NAME induced hypertension. The protective action of this drug is comparable to the results obtained with olmesartan. Antioxidative mechanisms are proposed to account for the pressure independent effects of allopurinol.
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PMID:Allopurinol attenuates L-NAME induced cardiomyopathy comparable to blockade of angiotensin receptor. 1871 76

The endothelium plays a crucial role in the regulation of vascular tone. Recent studies have indicated that endothelial dysfunction develops in the presence of cardiovascular risk factors such as hypertension, diabetes mellitus, hypercholesterolemia and in chronic smokers, as well as in patients with a family history of cardiovascular disease. It has now been established that endothelial dysfunction represents the first indicator of vascular damage. Endothelial function can be assessed in coronary and peripheral conductance and resistance vessels by means of invasive and noninvasive (ultrasound-guided) methods such as intracoronary infusion of acetylcholine, the endothelium-dependent vasodilator. It is interesting that endothelial dysfunction in the presence of cardiovascular risk factors can be almost completely corrected by the acute administration of antioxidants such as vitamin C, pointing to a crucial role of reactive oxygen species in mediating this phenomenon. Superoxide producing enzymes involved in the increased production of reactive oxygen species include NADPH oxidase, nitric oxide synthase in the uncoupled state, mitochondrial superoxide sources, cyclooxygenase and xanthine oxidase. Recent studies indicate that the endothelial dysfunction found in coronary and peripheral conductance and resistance vessels provide prognostic information about future cardiovascular events. The role of endothelial dysfunction in the setting of primary prevention is not yet clear, but is being investigated in the current Gutenberg Heart Study.
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PMID:[Endothelial dysfunction: pathophysiology, diagnosis and prognosis]. 1900 47

Hypertension and high serum cholesterol level are important risk factors for atherosclerosis and coronary heart disease. In the present study we tested the hypothesis whether high sodium intake, when given in combination with Western type high-fat diet, induces endothelial dysfunction and promotes atherosclerosis. Furthermore, the role and enzyme sources of increased oxidative stress were examined. Low-density lipoprotein receptor-deficient mice (LDLR(-/-)) and control C57Bl/6 mice received either high-fat, normal-sodium diet (fat 18% and cholesterol 0.5%; NaCl 0.7%; w/w) or high-fat, high-sodium diet (7% NaCl w/w) for 12 weeks. Superoxide formation was assessed by lucigenin enhanced chemiluminescence, endothelial functions were examined ex vivo, and atherosclerotic lesions from the aorta were assessed by light microscopy. High-fat, high-sodium diet increased systolic blood pressure in LDLR(-/-) mice but not in C57Bl/6 mice, whereas it induced cardiac hypertrophy in both mouse strains. Dietary combination of fat and sodium induced endothelial dysfunction in LDLR(-/-) mice. Preincubation with a superoxide scavenger Tiron normalized endothelial dysfunction, whereas the hydrogen peroxide scavenger catalase did not alter endothelial function. High sodium intake induced superoxide formation in LDLR(-/-) mice on high-fat diet. Stimulation of muscarinic receptors in the endothelial cells by acetylcholine increased superoxide generation, whereas preincubation with the nitric oxide synthase (NOS) inhibitor L-arginine methyl ester or endothelium removal reduced superoxide production. Inhibition of nicotinamide adenine dinucleotide phosphate (NADPH)-oxidase by apocynin decreased vascular superoxide formation whereas the xanthine oxidase inhibitor oxypurinol did not significantly affect oxidative stress in LDLR(-/-) mice. In conclusion, the detrimental effects of dietary sodium on endothelial function and progression of atherosclerosis in LDLR(-/-) mice on high-fat diet are mediated by increased ROS formation mainly through uncoupled NOS and NADPH oxidase. The present study also underscores the importance of superoxide and endothelial NOS uncoupling in the pathogenesis of endothelial dysfunction.
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PMID:Effects of dietary sodium on reactive oxygen species formation and endothelial dysfunction in low-density lipoprotein receptor-deficient mice on high-fat diet. 1903 90

Xanthine oxioreductase is the holoenzyme responsible for terminal purine catabolism. Under conditions of metabolic stress or heightened proinflammatory cytokine production, this enzyme is preferentially in its oxidized form, xanthine oxidase, with catalytic action that generates uric acid and the free radical superoxide. As preeclampsia is characterized by heightened inflammation, oxidative stress, and hyperuricemia, it has been proposed that xanthine oxidase plays a pivotal role in this hypertensive disorder of pregnancy. We sought to determine whether xanthine oxidase protein content was higher in maternal tissue of preeclamptic mothers, compared to healthy pregnant controls, using immunohistochemical analysis of skin biopsies. We further compared xanthine oxidase immunoreactivity in skin biopsies from preeclamptic women and patients with several inflammatory conditions. In preeclamptic women, intense xanthine oxidase immunoreactivity was present within the epidermis. By contrast, only very faint xanthine oxidase staining was observed in skin biopsies from healthy pregnant controls. Further, a role for inflammation in the increase of xanthine oxidase was suggested by similar findings of heightened xanthine oxidase immunoreactivity in the skin biopsies from nonpregnant individuals diagnosed with conditions of systemic inflammation. The finding of increased xanthine oxidase in maternal tissue, most likely as the result of heightened maternal inflammation, suggests maternal xanthine oxidase as a source of free radical and uric acid generation in preeclampsia.
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PMID:Increased xanthine oxidase in the skin of preeclamptic women. 1919 76

Oxygen is the essential molecule for all aerobic organisms, and plays predominant role in ATP generation, namely, oxidative phosphorylation. During this process, reactive oxygen species (ROS) including superoxide anion (O(2)(-)) and hydrogen peroxide (H(2)O(2)) are produced as by-products, while it seems indispensable for signal transduction pathways that regulate cell growth and reduction-oxidation (redox) status. However, during times of environmental stress ROS levels may increase dramatically, resulting in significant damage to cell structure and functions. This cumulated situation of ROS is known as oxidative stress, which may, however, be utilized for eradicating cancer cells. It is well known that oxidative stress, namely over-production of ROS, involves in the initiation and progression of many diseases and disorders, including cardiovascular diseases, inflammation, ischemia-reperfusion (I/R) injury, viral pathogenesis, drug-induced tissue injury, hypertension, formation of drug resistant mutant, etc. Thus, it is reasonable to counter balance of ROS and to treat such ROS-related diseases by inhibiting ROS production. Such therapeutic strategies are described in this article, that includes polymeric superoxide dismutase (SOD) (e.g., pyran copolymer-SOD), xanthine oxidase (XO) inhibitor as we developed water soluble form of 4-amino-6-hydroxypyrazolo[3,4-d]pyrimidine (AHPP), heme oxygenase-1 (HO-1) inducers (e.g., hemin and its polymeric form), and other antioxidants or radical scavengers (e.g., canolol). On the contrary, because of its highly cytotoxic nature, ROS can also be used to kill cancer cells if one can modulate its generation selectively in cancer. To achieve this goal, a unique therapeutic strategy was developed named as "oxidation therapy", by delivering cytotoxic ROS directly to the solid tumor, or alternatively inhibiting the antioxidative enzyme system, such as HO-1 in tumor. This anticancer strategy was examined by use of O(2)(-) or H(2)O(2)-generating enzymes (i.e., XO and d-amino acid oxidase [DAO] respectively), and by discovering the inhibitor of HO-1 (i.e., zinc protoporphyrin [ZnPP] and its polymeric derivatives). Further for the objective of tumor targeting and thus reducing side effects, polymer conjugates or micellar drugs were prepared by use of poly(ethylene glycol) (PEG) or styrene maleic acid copolymer (SMA), which utilize EPR (enhanced permeability and retention) effect for tumor-selective delivery. These macromolecular drugs further showed superior pharmacokinetics including much longer in vivo half-life, particularly tumor targeted accumulation, and thus remarkable antitumor effects. The present review concerns primarily our own works, in the direction of "Controlling oxidative stress: Therapeutic and delivery strategy" of this volume.
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PMID:Therapeutic strategies by modulating oxygen stress in cancer and inflammation. 1924 31

Uric acid (UA) results from xanthine oxidase (XO) catabolism of xanthine and is the final product of purine catabolism in humans. In this species, hyperuricemia is associated with gout, nephropathy, and increased cardiovascular disease risk. Although the effects of hyperuricemia in vascular biology are overall controversial, UA has been described as an antioxidant and as potentially improving endothelial function. Hypertension is associated with endothelial dysfunction. We hypothesized that UA improves the endothelial function of aorta from deoxycorticosterone acetate (DOCA)-salt hypertensive rats. UA (100 microM) in the presence of the uricase inhibitor oxonic acid (10 microM) did not modify relaxation to acetylcholine (ACh) (1 nM-10 microM) in the aorta from nontreated, sham normotensive, and DOCA-salt hypertensive rats [response to 10 microM ACh for UA versus vehicle, respectively: nontreated = 37 +/- 7 versus 48 +/- 7%, sham = 53 +/- 15 versus 57 +/- 20%, DOCA = 81 +/- 4 versus 85 +/- 2% from 20 microM prostaglandin 2alpha (PGF(2alpha))-induced contraction]. Allopurinol (100 microM), a XO inhibitor, did not significantly alter the ACh-induced relaxation of sham and DOCA aortic rings (response to 10 microM ACh for allopurinol versus vehicle, respectively: sham = 61 +/- 5 versus 68 +/- 9%, DOCA = 87 +/- 6 versus 88 +/- 3% from 20 microM PGF(2alpha)-induced contraction). Uricemia, ranging from unmeasurable to 547 microM in sham and to 506 microM in DOCA rats, was not significantly different between these two groups. The expression and activity of XO, as well as the expression of uricase, were not different between sham and DOCA rat aorta. We conclude that, at least in vitro, UA does not affect the ACh-induced relaxation of normotensive and DOCA-salt hypertensive rats.
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PMID:Uric acid does not affect the acetylcholine-induced relaxation of aorta from normotensive and deoxycorticosterone acetate-salt hypertensive rats. 2021 10

Over the last two decades, it has become increasingly clear that reactive oxygen species (ROS), including free radicals are involved in cardiovascular disease. In recent years, there has been a growing interest in the clinical implications of these oxidants. The ROS are common by-products of many oxidative biochemical and physiological processes. They can be released by xanthine oxidase, NAD(P)H oxidase, lipoxygenases, mitochondria, or the uncoupling of nitric oxide synthase in vascular cells. ROS mediate various signaling pathways that underlie vascular inflammation in atherogenesis. Various animal models of oxidative stress support that ROS have causal role in atherosclerosis and other cardiovascular diseases. They are too reactive to be tolerated in living tissue, and aerobic organisms use sophisticated defense system, both enzymatic and non-enzymatic for prevention of overload of free radicals. In a number of pathophysiological conditions, the delicate equilibrium between free-radical production and antioxidant capability can be altered in favor of the former, thus leading to oxidative stress and increased tissue injury. This review focuses on the biochemical evidences concerning involvement of ROS in several cardiovascular diseases, namely atherosclerosis, heart failure, hypertension and ischemia/reperfusion injury.
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PMID:Oxidative stress in cardiovascular disease. 2036 6


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