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)

Caveolae are membrane domains that have been implicated in signal transduction, and caveolins are major structural components of these domains. We found that all reported caveolin isoforms (caveolin-1, -2, and -3) were expressed in vascular smooth muscle cells (VSMCs); however, only caveolin-1 mRNA was regulated by angiotensin II (Ang II). Ang II (100 nmol/L) increased caveolin-1 mRNA, with a peak at 2 hours (193+/-6% of control, P<0.01, n=4). In contrast, Ang II significantly decreased caveolin-1 protein, with a nadir at 4 hours (64+/-5% of control, P<0.01, n=6). [35S]Methionine labeling showed that Ang II increased caveolin biosynthesis (226+/-33% of control labeling at 4 hours), suggesting that the transient decrease in caveolin protein levels is due to increased degradation. When cells were fractionated with sucrose, on agonist stimulation, AT1 receptors appeared in fraction 5 where caveolin was fractionated. This migration was blocked by low temperature and treatment with phenylarsine oxide, interventions that interfere with agonist-induced Ang II type 1 (AT1) receptor sequestration and tonic phase signaling. In addition, caveolin-1 coimmunoprecipitates with AT1 receptor only on agonist stimulation. These data support the concept that the caveola is a specialized signaling domain in VSMCs that can be dynamically accessed by the AT1 receptor. Because of the signaling and coupling proteins that are localized in caveolae and because of evidence that these proteins may interact directly with caveolin, caveola-AT1 receptor interaction likely represents an important focus for dynamic control of receptor signaling in VSMCs.
Hypertension 1998 Sep
PMID:Angiotensin II type 1 receptor: relationship with caveolae and caveolin after initial agonist stimulation. 974 Jun 11

Angiotensin II (Ang II) plays an important role as a modulator of vascular structure and function in arterial hypertension. This study investigated the effects of an Ang II type 1 receptor antagonist, TCV-116, on endothelial nitric oxide synthase (eNOS) mRNA and protein expression, and NOS activity and eNOS regulatory protein caveolin-1 protein expression in the left ventricle of Wistar-Kyoto rats treated for 2 weeks with Ang II (200 ng/kg/min) and evaluated these relations to myocardial remodeling. Rats given Ang II alone (ANGII) were compared with rats also receiving TCV-116 (ANGII-TCV). The eNOS mRNA and protein levels, and NOS activity and caveolin-1 protein expression in the left ventricle were significantly decreased in ANGII compared with control rats (CON), and were significantly increased in ANGII-TCV compared with ANGII. Moreover, compared with CON, the eNOS and caveolin-1 expression was significantly greater in CON treated with TCV-116. ANGII showed a significant increase of the wall-to-lumen ratio, perivascular and myocardial fibrosis, and type I collagen mRNA expression, with all these parameters being significantly improved by TCV-116. Thus, coronary microvascular and myocardial remodeling in normotensive and Ang II-induced hypertensive rats was significantly ameliorated by a subdepressor dose of TCV-116, which may be at least in part mediated by an increase in local eNOS mRNA and protein expression, and NOS activity in the left ventricle.
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PMID:TCV-116 stimulates eNOS and caveolin-1 expression and improves coronary microvascular remodeling in normotensive and angiotensin II-induced hypertensive rats. 1158 14

Because nitric oxide (NO) regulates cardiac and vessel contraction, we compared the expression and activity of the endothelial NO synthase (eNOS) and caveolin, which tonically inhibits eNOS in normal and hypertrophic cardiomyopathic hearts. NOS activity (L-[(3)H]citrulline formation), eNOS immunostaining, and caveolin abundance were measured in heart tissue of 23 mongrel dogs before and at 3 and 7 wk of perinephritic hypertension (PHT). Hemodynamic parameters in vivo and endothelial NO-dependent relaxation of macro- and coronary microvessels in vitro were assessed in the same animals. eNOS immunostaining and total calcium-dependent NOS activity decreased at 7 wk in all four heart cavities (in left ventricle, from 17.0 +/- 1.3 to 0.2 +/- 0.2 fmol. min(-1). mg protein(-1), P < 0.001). Caveolin-1 and -3 also decreased in PHT dog hearts. Accordingly, basal vascular tone was preserved, but maximal endothelial NO-dependent relaxation was impaired in all vessels from 7-wk PHT dogs. The latter had preserved systolic function but impaired diastolic relaxation [relaxation time constant (T(1)), 25.1 +/- 0.9 vs. 22.0 +/- 1 ms in controls; P < 0.05]. Peripheral infusion of the NOS inhibitor N(G)-nitro-L-arginine methyl ester increased mean aortic pressure in both groups and reduced diastolic (T(1), 31.9 +/- 1.4 ms) and systolic function in PHT dogs (DP40, 47.5 +/- 2.5 vs. 59.4 +/- 3.8 s(-1) in control animals). In conclusion, both eNOS and caveolin proteins are decreased in the hypertrophic hearts of PHT dogs. This is associated with altered maximal (but not basal) vascular relaxation and impaired diastolic function. Further degradation of cardiac function after NOS inhibition suggests a critical role of residual NOS activity, probably supported by the concurrent downregulation of caveolin.
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PMID:Decreased expression of myocardial eNOS and caveolin in dogs with hypertrophic cardiomyopathy. 1174 66

We tested whether consumption of a high-fat, high-sucrose (HFS) diet can affect endothelium-dependent relaxation, whether this precedes the development of diet-induced hypertension previously noted in this model, and whether it is mediated, in part, by changes in nitric oxide synthase (NOS) and/or NOS regulatory proteins. Female Fischer rats were fed either a HFS diet or standard low-fat, complex-carbohydrate chow starting at 2 mo of age for 7 mo. Vasoconstrictive response to KCl and phenylephrine was similar in both groups. Vasorelaxation to acetylcholine was significantly impaired in the HFS animals, and there were no differences in relaxation to sodium nitroprusside, suggesting that the endothelial dysfunction is due, at least in part, to nitric oxide deficiency. HFS consumption decreased protein expression of endothelial NOS in aorta, renal, and heart tissues, neuronal NOS in kidney, heart, aorta, and brain, and inducible NOS in heart and aorta. Caveolin-1 and soluble guanylate cyclase protein expression did not change, but AKT protein expression decreased in heart and aorta and increased in kidney tissue. Consumption of HFS diet raised brain carbonyl content and plasma hydrogen peroxide concentration and diminished plasma total antioxidant capacity. Because blood pressure, which is known to eventually rise in this model, was not as yet significantly elevated, the present data suggest that endothelial dysfunction precedes the onset of diet-induced hypertension. The lack of a quantitative change in caveolin-1 and soluble guanylate cyclase protein content indicates that alteration in these proteins is not responsible for the endothelial dysfunction. Thus nitric oxide deficiency combined with antioxidant/oxidant imbalance, appears to be a primary factor in the development of endothelial dysfunction in this model.
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PMID:A high-fat, refined-carbohydrate diet induces endothelial dysfunction and oxidant/antioxidant imbalance and depresses NOS protein expression. 1533 12

Fluid shear stress generated by blood flowing over the endothelium is a major determinant of arterial tone, vascular remodeling, and atherogenesis. Nitric oxide (NO) produced by endothelial NO synthase (eNOS) plays an essential role in regulation of vascular function and structure by blood flow. Although cyclosporin A (CsA), an inhibitory ligand of cyclophilin A, is a widely used immunosuppressive drug, it causes arterial hypertension in part by impairing eNOS-dependent vasodilation. Here we show that CsA inhibits fluid shear stress-mediated eNOS activation in endothelial cells via decreasing cholesterol content in caveolae. Exposure of cultured bovine aortic endothelial cells to 1 mum CsA for 1 h significantly inhibited NO production and eNOS phosphorylation at Ser-1179 induced by flow (shear stress=dynes/cm2). The effect of CsA was not related to inhibition of two known eNOS kinases, protein kinase B (Akt) and protein kinase A, because CsA did not affect Akt or protein kinase A activation. In rabbit aorta perfused ex vivo, CsA also significantly inhibited flow-induced eNOS phosphorylation at Ser-1179 but had no effect on Akt measured by phosphorylation at Ser-473. However, CsA treatment decreased cholesterol content in caveolae and displaced eNOS from caveolae, which may be caused by CsA disrupting the association of caveolin-1 and cyclophilin A. The magnitude of the cholesterol depleting effect was similar to that of beta-cyclodextrin, a cholesterol-binding molecule, and beta-cyclodextrin had a similar inhibitory effect on flow-mediated eNOS activation. Treating bovine aortic endothelial cells for 24 h with 30 mug/ml cholesterol blocked the CsA effect and restored eNOS phosphorylation in response to flow. These data suggest that decreasing cholesterol content in caveolae by CsA is a potentially important pathogenic mechanism for CsA-induced endothelial dysfunction and hypertension.
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PMID:Cyclosporin A inhibits flow-mediated activation of endothelial nitric-oxide synthase by altering cholesterol content in caveolae. 1538 26

Chronic renal failure (CRF) has been documented to cause oxidative stress and alter nitric oxide (NO) metabolism. However, the effect of CRF on proteins related to NO bioactivity has not been investigated. The present study was designed to test the hypothesis that CRF would induce changes in caveolin-1 (Cav-1), soluble guanylate cyclase (sGC) and Akt, three proteins important in regulating NO synthase (NOS) functionality. Male Sprague-Dawley rats were randomized to CRF via 5/6 nephrectomy or sham-operated control groups. After 6 weeks, body weight, blood pressure, creatinine clearance, plasma creatinine, urinary cyclic guanosine monophosphate (cGMP) and immunodetectable levels of Cav-1, sGC and Akt were determined in the renal, aorta, heart and liver tissues from both groups. CRF resulted in marked decreases in body weight and creatinine clearance, and elevation of blood pressure and plasma creatinine. An apparent upregulation of sGC protein abundance in renal tissue was noted, with no change in aorta, heart and liver. This was accompanied by a reduction in urinary cGMP levels, indicative of sGC dysfunction. Cav-1 protein abundance was increased in aortic, liver and renal tissues. In contrast, CRF depressed Akt abundance in aorta, heart and liver tissues. These data document that CRF is characterized by alteration in the abundance of proteins regulating NO function in hepatic, vascular, cardiac and renal tissues, and a decrease in cGMP, which contributes to hypertension and changes in NO bioactivity previously noted in this model.
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PMID:Effects of chronic renal failure on caveolin-1, guanylate cyclase and AKT protein expression. 1551 30

Extracellular matrix remodeling occurs during development, tissue repair, and in a number of pathologies, including fibrotic disorders, hypertension, and atherosclerosis. Extracellular matrix remodeling involves the complex interplay between extracellular matrix synthesis, deposition, and degradation. Factors that control these processes are likely to play key roles in regulating physiological and pathological extracellular matrix remodeling. Our data show that fibronectin polymerization into the extracellular matrix regulates the deposition and stability of other extracellular matrix proteins, including collagen I and thrombospondin-1 (Sottile and Hocking, 2002. Mol. Biol. Cell 13, 3546). In the absence of continual fibronectin polymerization, there is a loss of fibronectin matrix fibrils, and increased levels of fibronectin degradation. Fibronectin degradation occurs intracellularly after endocytosis and can be inhibited by chloroquine, an inhibitor of lysosomal degradation, and by caveolae-disrupting agents. Down-regulation of caveolin-1 by RNAi inhibits loss of fibronectin matrix fibrils, fibronectin internalization, and fibronectin degradation; these processes can be restored by reexpression of caveolin-1. These data show that fibronectin matrix turnover occurs through a caveolin-1-dependent process. Caveolin-1 regulation of fibronectin matrix turnover is a novel mechanism regulating extracellular matrix remodeling.
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PMID:Fibronectin matrix turnover occurs through a caveolin-1-dependent process. 1556 5

Arginine, a semi-essential amino acid, plays a major nutritional and metabolic role. In particular, arginine is the precursor of nitric oxide which is involved in the endothelial function. Several factors, such as hypercholesterolemia, diabetes, ageing and hypertension are established risk factors for atherosclerosis, in particular by decreasing the availability of nitric oxide. Thus, endothelial nitric oxide synthase has a pivotal role against atherosclerosis. A suitable amount of cofactor and a sufficient intake of arginine have been shown to modulate nitric oxide-induced vasodilatation: despite the fact that the intracellular concentration of arginine is well above the Km of endothelial nitric oxide synthase, an arginine supplemented-diet is effective in increasing the production of nitric oxide. Several mechanisms have been proposed to explain this "arginine paradox": co-localization of the arginine transporter with endothelial nitric oxide synthase, intracellular arginine regeneration from citrulline, balance between endothelial arginase and nitric oxide synthase. Statins which are HMG-CoA reductase inhibitors inhibit the synthesis of mevalonate, and thus that of cholesterol. In addition, statins increase the stabilization of endothelial nitric oxide synthase mRNA. The co-operation between cholesterol synthesis and the upregulation of caveolin-1 on the one hand, and the activation of endothelial nitric oxide synthase on the other hand, is very tight. A depletion of cholesterol in the caveolae induces a decrease in caveolin-1 at the cell surface allowing NOS activation. Thus statins improve nitric oxide production and vasodilatation. In a recent work in the hypercholesterolemic Watanabe rabbit, we have demonstrated that the combination of arginine with a statin, namely atorvastatin, significantly hinders the spreading of atherosclerotic plaques as compared with monotherapies. Such association of a nutriment and a drug open a new area of therapeutic strategy.
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PMID:[Arginine and statins: relationship between the nitric oxide pathway and the atherosclerosis development]. 1623 Feb 78

Ouabain, a cardiotonic steroid and a specific inhibitor of the Na(+)-K(+)-ATPase, has been shown to significantly inhibit transcellular Na(+) transport without altering the intracellular Na(+) concentration ([Na(+)](i)) in the epithelial cells derived from the renal proximal tubules. We therefore studied whether ouabain affects the activity and expression of Na(+)/H(+) exchanger isoform 3 (NHE3) representing the major route of apical Na(+) reabsorption in LLC-PK(1) cells. Chronic basolateral, but not apical, exposure to low-concentration ouabain (50 and 100 nM) did not change [Na(+)](i) but significantly reduced NHE3 activity, NHE3 protein, and mRNA expression. Inhibition of c-Src or phosphoinositide 3-kinase (PI3K) with PP2 or wortmannin, respectively, abolished ouabain-induced downregulation of NHE3 activity and mRNA expression. In caveolin-1 knockdown LLC-PK(1) cells, ouabain failed to downregulate NHE3 mRNA expression and NHE3 promoter activity. Ouabain response elements were mapped to a region between -450 and -1,194 nt, where decreased binding of thyroid hormone receptor (TR) and Sp1 to their cognate cis-elements was documented in vitro and in vivo by protein/DNA array analysis, EMSA, supershift, and chromatin immunoprecipitation. These data suggest that, in LLC-PK(1) cells, ouabain-induced signaling through the Na(+)-K(+)-ATPase-Src pathway results in decreased Sp1 and TR DNA binding activity and consequently in decreased expression and activity of NHE3. These novel findings may represent the underlying mechanism of cardiotonic steroid-mediated renal compensatory response to volume expansion and/or hypertension.
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PMID:Cardiac glycoside downregulates NHE3 activity and expression in LLC-PK1 cells. 1660 Dec 99

Estrogen receptor beta (ERbeta) is highly expressed in both type I and II pneumocytes as well as bronchiolar epithelial cells. ERalpha is not detectable in the adult lung. Lungs of adult female ERbeta knockout (ERbeta-/-) mice have already been reported to have fewer alveoli and reduced elastic recoil. In this article, we report that, by 5 months of age, there are large areas of unexpanded alveoli in lungs of both male and female ERbeta-/- mice. There is increased staining for collagen and, by EM, abnormal clusters of collagen fibers are seen in the alveolar septa of ERbeta-/- mice. Immunohistochemical analysis and Western blotting with lung membrane fractions of ERbeta-/- mice revealed down-regulation of caveolin-1, increased expression of membrane type-1 metalloproteinase, matrix metalloproteinase 2 (active form), and tissue inhibitors of metalloproteinases 2. Hypoxia, measured by immunohistochemical analysis for hypoxia-inducible factor 1alpha and chemical adducts (with Hypoxyprobe), was evident in the heart, ventral prostate, periovarian sac, kidney, liver, and brain of ERbeta-/- mice under resting conditions. Furthermore, both male and female adult ERbeta-/- mice were reluctant to run on a treadmill and tissue hypoxia became very pronounced after exercise. We conclude that ERbeta is necessary for the maintenance of the extracellular matrix composition in the lung and loss of ERbeta leads to abnormal lung structure and systemic hypoxia. Systemic hypoxia may be responsible for the reported left and right heart ventricular hypertrophy and systemic hypertension in ERbeta-/- mice.
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PMID:Lung dysfunction causes systemic hypoxia in estrogen receptor beta knockout (ERbeta-/-) mice. 1663 72

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