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)

Ethanol causes vasoconstriction and contributes to the development of hypertension. Acetaldehyde (ACA), the primary metabolite of ethanol, elevates blood pressure by releasing endogenous catecholamines. In vitro, ACA leads to vasorelaxation, although the response may vary among various vascular beds. This study examined the influence of hypertensive state on the ACA-induced vasorelaxant responsiveness. Ring segments of thoracic aorta were isolated from Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHR) and isometric tension development was measured. In aorta with or without intact endothelium, the contractile responses to KCl and norepinephrine were greatly attenuated, whereas vasoconstrictive response to 5-HT was enhanced, by hypertension. Vasorelaxant response to histamine was similar between WKY and SHR groups. ACA (1-30 mM) elicited endothelium-intact as well as -denuded vasorelaxation in a dose-dependent manner in aorta from both WKY and SHR groups. Interestingly, the ACA-induced endothelium-intact vasorelaxation was significantly diminished, whereas the ACA-induced endothelium-denuded vasorelaxation was significantly augmented, by hypertension. These data indicated that the ACA-induced vasorelaxant response, either endothelium-intact or-denuded, is altered by the hypertensive state.
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PMID:Influence of hypertension on acetaldehyde-induced vasorelaxation in rat thoracic aorta. 1188 15

Tetrahydropapaveroline (THP), a condensation product of ethanol-derived acetaldehyde, potentiates cardiac function through beta-adrenoceptor. We have recently shown that THP-induced cardiac contractile action is likely due to its action at the single myocyte level, and is markedly diminished during early hypertension. Cardiac function alters with advanced age reminiscent of hypertension. This study was to examine cardiac contractile response to THP with advanced age and hypertension. Left ventricular papillary muscles and myocytes were isolated from normotensive (WKY) or hypertensive (SHR) rats, and stimulated to contract at 0.5 Hz. Mechanical parameters evaluated include: peak tension developed (PTD)/peak shortening (PS), time-to-PTD/PS (TPT/TPS), time-to-90% relaxation/relengthening (RT90/TR90), and maximal velocities of contraction/relaxation (+/- VT/+/- dLdt). Intracellular Ca2+ transients were measured as fura-2 fluorescence intensity changes (AFFI). THP (0.1-100 microM) increased PTD in 10- but not 36-wk-old WKY rat myocardium. THP elicited positive, negative or no response on PS in myocytes from 10-wk WKY, 36-wk WKY, and 36-wk SHR groups, respectively. Interestingly, THP elicited discrepant response on intracellular Ca2+ transient compared with that of myocyte shortening. THP increased AFFI in 10-wk WKY and 36-wk SHR myocytes while exhibiting a significant inhibiting action in 36-wk WKY myocytes. Lastly, THP shortened TPT/TPS, RT90/TR90 and increased +VT in all animal groups. These results indicate that the THP-induced myocardial contractile response is altered in advanced age and hypertension, in a manner similar to early stage of hypertension. It is possible that altered intracellular Ca2+ responsiveness may be involved in THP-induced action.
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PMID:Loss of cardiac contractile response to tetrahydropapaveroline with advanced age and hypertension. 1193 62

Tetrahydropapaveroline (THP), a condensation product of ethanol-derived acetaldehyde, has been shown to elicit a vasorelaxant response in rat thoracic aorta. This study examined the influence of hypertension on the THP-induced vasorelaxant responsiveness. Ring segments of thoracic aorta were isolated from Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHR) and isometric tension development was measured with a force transducer. In aorta, with or without intact endothelium, the contractile responses to potassium chloride (0-120 mM) were comparable between the WKY and the SHR groups. Hypertension did not affect the vasoconstrictive response to norepinephrine (0-10 microM) in vessels with intact endothelium, whereas it attenuated the norepinephrine-induced response in vessels without endothelium. THP (0.1-100 microM) elicited endothelium-intact as well as -denuded vasorelaxation in aorta from both WKY and SHR groups. Interestingly, the THP-induced endothelium-dependent vasorelaxation was significantly enhanced, whereas the THP-induced endothelium-independent vasorelaxation was not affected by hypertension. These data indicate that the THP-induced endothelium-dependent vasorelaxant response is altered by the hypertensive state.
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PMID:Influence of hypertension on tetrahydropapaveroline-induced vasorelaxation in rat thoracic aorta. 1210 86

In fructose-induced hypertension in Wistar-Kyoto (WKY) rats, excess endogenous aldehydes bind sulfhydryl groups of membrane proteins, altering membrane Ca2+ channels and increasing cytosolic free calcium and blood pressure. The thiol compound N-acetyl cysteine prevents fructose-induced hypertension by binding excess endogenous aldehydes and normalizing membrane Ca2+ channels and cytosolic free calcium. The aim of the present study was to investigate whether dietary supplementation of vitamin E and vitamin C which are known to increase tissue glutathione, a storage form of cysteine, prevents this hypertension and its associated biochemical and histopathological changes. Starting at 7 weeks of age, animals were divided into four groups of six animals each and treated as follows: control group, normal diet and normal drinking water; fructose group, normal diet and 4% fructose in drinking water; fructose + vitamin E group, diet supplemented with vitamin E (34 mg/ kg feed) and 4% fructose in drinking water; fructose + vitamin C group, diet supplemented with vitamin C (1,000 mg/kg feed) and 4% fructose in drinking water. At 14 weeks, systolic blood pressure, platelet [Ca2+]i and kidney and aortic aldehyde conjugates were significantly higher in the fructose group. These animals also displayed smooth muscle cell hyperplasia in the small arteries and arterioles of the kidneys. Dietary vitamin E and C supplementation in fructose-treated WKY rats prevented the increase in systolic blood pressure by normalizing cytosolic [Ca2+]i and kidney and aortic aldehyde conjugates and preventing adverse renal vascular changes.
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PMID:Dietary vitamin E and C supplementation prevents fructose induced hypertension in rats. 1248 32

Mitochondrial aldehyde dehydrogenase 2 (ALDH2) plays a major role in acetaldehyde detoxification. The alcohol sensitivity is associated with a genetic deficiency of ALDH2. We and others have previously reported that such a deficiency influences the risk for late-onset Alzheimer's disease (LOAD), hypertension, and myocardial infarction. Then we tried to find phenotypes to which the ALDH2 polymorphism contributes by conducting several evaluations including biochemical and functional analyses of various tissues in a community-dwelling population. Several serum proteins, lipids, and lipid peroxides (LPO) levels showed differences between the nondefective (ALDH2*1/1) and defective (ALDH2*1/2 and ALDH2*2/2) ALDH2 individuals. However, alcohol-drinking behavior is known to affect these evaluations. Thus, we excluded the effects of alcohol-drinking behavior from the association with the ALDH2-deficient genotype through correction and found that the concentration of LPO was significantly lower in the nondefective ALDH2 females than the defective females. The effect of frequent alcohol-drinking behavior in males seems to override the phenotype of the high serum LPO level. These results indicate that the ALDH2 deficiency may enhance oxidative stress in vivo. Thus, these findings suggest that ALDH2 functions as a protector against oxidative stress and the decrease in protection may influence the onset of AD, hypertension, and myocardial infarction.
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PMID:Genetic deficiency of a mitochondrial aldehyde dehydrogenase increases serum lipid peroxides in community-dwelling females. 1290 81

There is strong evidence that points to excess dietary salt as a major factor contributing to the development of hypertension. Salt sensitivity is associated with glucose intolerance and insulin resistance in both animal models and humans. In insulin resistance, impaired glucose metabolism leads to elevated endogenous aldehydes which bind to vascular calcium channels, increasing cytosolic [Ca2+]i and blood pressure. In an insulin resistant animal model of hypertension, spontaneously hypertensive rats (SHRs), dietary supplementation with lipoic acid lowers tissue aldehydes and plasma insulin levels and normalizes blood pressure. The objective of this study is to examine the effects of a high salt diet on tissue aldehydes, cytosolic [Ca2+]i and blood pressure in WKY rats and to investigate whether dietary supplementation with lipoic acid can prevent a salt induced increase in blood pressure. Starting at 7 weeks of age, WKY rats were divided into three groups of six animals each and treated for 10 weeks with diets as follows: WKY-normal salt (0.7% NaCl); WKY-high salt (8% NaCl); WKY-high salt + lipoic acid (8% NaCl diet + lipoic acid 500 mg/Kg feed). At completion, animals in the high salt group had elevated systolic blood pressure, platelet [Ca2+]i, and tissue aldehyde conjugates compared with the normal salt group and showed smooth muscle cell hyperplasia in the small arteries and arterioles of the kidneys. Dietary alpha-lipoic acid supplementation in high salt-treated WKY rats normalized systolic blood pressure and cytosolic [Ca2+]i and aldehydes in liver and aorta. Kidney aldehydes and renal vascular changes were attenuated, but not normalized.
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PMID:Salt-induced hypertension in WKY rats: prevention by alpha-lipoic acid supplementation. 1467 12

Chronic ethanol abuse is associated with liver injury, neurotoxicity, hypertension, cardiomyopathy, modulation of immune responses and increased risk for cancer, whereas moderate alcohol consumption exerts protective effect on coronary heart disease. However, the signal transduction mechanisms underlying these processes are not well understood. Emerging evidences highlight a central role for mitogen activated protein kinase (MAPK) family in several of these effects of ethanol. MAPK signaling cascade plays an essential role in the initiation of cellular processes such as proliferation, differentiation, development, apoptosis, stress and inflammatory responses. Modulation of MAPK signaling pathway by ethanol is distinctive, depending on the cell type; acute or chronic; normal or transformed cell phenotype and on the type of agonist stimulating the MAPK. Acute exposure to ethanol results in modest activation of p42/44 MAPK in hepatocytes, astrocytes, and vascular smooth muscle cells. Acute ethanol exposure also results in potentiation or prolonged activation of p42/44MAPK in an agonist selective manner. Acute ethanol treatment also inhibits serum stimulated p42/44 MAPK activation and DNA synthesis in vascular smooth muscle cells. Chronic ethanol treatment causes decreased activation of p42/44 MAPK and inhibition of growth factor stimulated p42/44 MAPK activation and these effects of ethanol are correlated to suppression of DNA synthesis, impaired synaptic plasticity and neurotoxicity. In contrast, chronic ethanol treatment causes potentiation of endotoxin stimulated p42/44 MAPK and p38 MAPK signaling in Kupffer cells leading to increased synthesis of tumor necrosis factor. Acute exposure to ethanol activates pro-apoptotic JNK pathway and anti-apoptotic p42/44 MAPK pathway. Apoptosis caused by chronic ethanol treatment may be due to ethanol potentiation of TNF induced activation of p38 MAPK. Ethanol induced activation of MAPK signaling is also involved in collagen expression in stellate cells. Ethanol did not potentiate serum stimulated or Gi-protein dependent activation of p42/44 MAPK in normal hepatocytes but did so in embryonic liver cells and transformed hepatocytes leading to enhanced DNA synthesis. Ethanol has a 'triangular effect' on MAPK that involve direct effects of ethanol, its metabolically derived mediators and oxidative stress. Acetaldehyde, phosphatidylethanol, fatty acid ethyl ester and oxidative stress, mediate some of the effects seen after ethanol alone whereas ethanol modulation of agonist stimulated MAPK signaling appears to be mediated by phosphatidylethanol. Nuclear MAPKs are also affected by ethanol. Ethanol modulation of nuclear p42/44 MAPK occurs by both nuclear translocation of p42/44 MAPK and its activation in the nucleus. Of interest is the observation that ethanol caused selective acetylation of Lys 9 of histone 3 in the hepatocyte nucleus. It is plausible that ethanol modulation of cross talk between phosphorylation and acetylations of histone may regulate chromatin remodeling. Taken together, these recent developments place MAPK in a pivotal position in relation to cellular actions of ethanol. Furthermore, they offer promising insights into the specificity of ethanol effects and pharmacological modulation of MAPK signaling. Such molecular signaling approaches have the potential to provide mechanism-based therapy for the management of deleterious effects of ethanol or for exploiting its beneficial effects.
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PMID:MAP kinase signaling in diverse effects of ethanol. 1502 49

Alcoholic cardiomyopathy is characterized by cardiomegaly, disruptions of myofibrillary architecture, reduced myocardial contractility, decreased ejection fraction, and enhanced risk of stroke and hypertension. Although several mechanisms have been postulated for alcoholic cardiomyopathy, including oxidative damage, accumulation of triglycerides, altered fatty acid extraction, decreased myofilament Ca(2+) sensitivity, and impaired protein synthesis, neither the mechanism nor the ultimate toxin has been unveiled. Primary candidates acting as specific toxins of myocardial tissue are ethanol; its first and major metabolic product, acetaldehyde; and fatty acid ethyl esters. Acetaldehyde has been demonstrated to impair directly cardiac contractile function, disrupt cardiac excitation-contractile coupling, and contribute to oxidative damage and lipid peroxidation. Acetaldehyde-elicited cardiac dysfunction may be mediated through cytochrome P450 oxidase, xanthine oxidase, and the stress-signaling cascade. Unfortunately, the most direct approach that can be used to examine toxicity is hampered by the fact that direct intake of acetaldehyde is highly toxic and unsuitable for long-term study. To overcome this obstacle, transgenic mice have been used to alter artificially ethanol/acetaldehyde metabolism, resulting in elevated acetaldehyde concentrations after ethanol ingestion. In this review, we summarize results obtained with the use of transgenic animal models to elucidate the role of acetaldehyde in the mechanism of action in alcoholic cardiomyopathy.
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PMID:Ethanol and acetaldehyde in alcoholic cardiomyopathy: from bad to ugly en route to oxidative stress. 1528 11

The development of alcohol use disorder (AUD) is related to various social, economic, cultural, environmental and hereditary factors. Several potential risk factors have been proposed for AUD in addition to alcohol consumption, including alcohol dehydrogenase2 (ADH2), acetaldehyde dehydrogenase2 (ALDH2), marital status, educational, occupational or past medical history (e.g. diabetes mellitus, hypertension, lung, digestive tract, or chronic liver disease) or smoking habits. The present study was performed to investigate the relationship between the aforementioned potential risk factors and AUD in Japan. A case-control study was performed on 153 male Japanese AUD patients and age-, gender-, or other confounder-matched controls to investigate the relation multivariately between ADH2, ALDH2 or alcohol drinking and AUD. Genomic DNA were extracted from nail clippings by the guanidium method, and genotyping of ADH2 and ALDH2 were performed using polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) methods. Univariate analyses by the conditional logistic regression model revealed statistically significant odds ratios due to ADH2*1/1 genotype, ALDH2*1/1 genotype, middle school as the final school attended, longest occupations as farmers, fishermen, craftsmen, miners, production process or construction workers, and past histories of chronic liver disease and AUD. However, multivariate analyses under a hierarchically well-formulated model strategy with interaction and confounding assessment indicated that (i) heavy alcohol intake was a significant risk factor (odds ratio per 1.0 g of daily ethanol intake; 1.096, 95% confidence interval; 1.026-1.171) for developing AUD after adjusting for other confounders; and (ii) ADH2*1/1 genotype and ALDH2*1/1 genotype were not risk factors after adjusting for daily ethanol intake and other confounders. The present study shows that AUD was more directly and strongly associated with alcohol drinking than with alcohol metabolizing enzymes among male Japanese.
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PMID:Alcohol drinking frequency is more directly associated with alcohol use disorder than alcohol metabolizing enzymes among male Japanese. 1567 38

There is strong evidence that excess dietary salt (NaCl) is a major factor contributing to the development of hypertension. Salt-sensitive humans and rats develop hypertension even on a normal-salt diet. Salt sensitivity is associated with glucose intolerance and insulin resistance in both humans and animal models, including Dahl salt-sensitive (DSS) rats. In insulin resistance, impaired glucose metabolism leads to elevated endogenous aldehydes that bind sulfhydryl groups of membrane proteins, altering calcium channels, and increasing cytosolic free calcium ([Ca2+]i) and blood pressure. Vitamin E lowers tissue aldehyde conjugates, cytosolic [Ca2+]i, and blood pressure in spontaneously hypertensive rats and fructose-induced hypertensive Wistar Kyoto rats, models of insulin resistance. This study investigated the effect of a normal-salt diet on tissue aldehyde conjugates, cytosolic [Ca2+]i, and blood pressure in DSS rats and the effect of vitamin E supplementation on blood pressure and associated biochemical changes in these animals. Seven-week-old DSS rats were divided into 3 groups of 6 animals each and treated for 6 weeks with diets as follows: low-salt (0.4% NaCl); normal-salt (0.7% NaCl) and normal salt (0.7% NaCl) plus vitamin E (34 mg/kg feed). At completion, animals in the normal-salt group had significantly elevated systolic blood pressure, cytosolic [Ca2+]i, and tissue aldehyde conjugates compared with the low-salt group. They also showed smooth muscle cell hyperplasia in small arteries and arterioles of the kidney. Dietary vitamin E supplementation significantly attenuated the increase in systolic blood pressure and associated biochemical and histopathologic changes.
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PMID:Dietary vitamin e supplementation attenuates hypertension in Dahl salt-sensitive rats. 1596 61

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