UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two important mediators of endothelium-dependent regulation of vascular smooth muscle tone and proliferation are nitric oxide (NO) and endothelin (ET-1). An imbalance between NO and ET-1 may contribute to the alterations in vascular tone characteristic of cardiovascular disease. The objective of this study was to determine whether NO regulates ET receptors in cultured rat superior mesenteric artery vascular smooth muscle cells (RVSMC). Chronic treatment of quiescent RVSMC with any one of three chemically dissimilar NO-generating drugs, S-nitroso-N-acetyl penicillamine (SNAP), sodium nitroprusside (SNP), and isosorbide dinitrate (ISDN) produced a significant dose- and time-dependent increase in the number of ET-A receptors, while concomitantly increasing the affinity of ET-1 for this receptor. This effect was mimicked by both 8-bromo-cGMP and 8-bromo-cAMP. The requirement of both protein and RNA synthesis and activation of a cAMP-dependent protein kinase (A-kinase) was demonstrated following inhibition of this regulation by cycloheximide, actinomycin D and KT5720 (a specific A-kinase inhibitor), respectively. In addition, the cytokine interleukin 1 beta (IL-1 beta) which induced NOS activity with subsequent NO synthesis in vascular smooth muscle, also caused a similar upregulation of ET receptors. This effect was attenuated in the presence of the specific NOS inhibitor, L-NAME. To assess the possible functional consequences of this NO-mediated upregulation, the effect of SNAP pretreatment on isolated vessel reactivity was determined. In both superior mesenteric artery and thoracic aorta rings, SNAP pretreatment caused a significant increase in the maximal force of contraction to ET-1. Collectively, these data suggest that NO regulates ET-A receptors in vitro through a cGMP-dependent mechanism via activation of the cAMP-dependent protein kinase. We conclude that a similar interaction between NO and ET-1 may be operational in vivo.
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PMID:Regulation of endothelin receptors by nitric oxide in cultured rat vascular smooth muscle cells. 860 Jan 50

The Mediterranean diet, rich in fresh fruits and vegetables, has been associated with a lower incidence of cardiovascular disease and cancer, partly because of its high proportion of bioactive compounds such as vitamins, flavonoids and polyphenols. The major lipid component of such diet is the drupe-derived olive oil, that can be distinguished from other seed oils for the peculiar composition of its non-triglyceride fraction. In fact, several minor components, including polyphenols, grant the oil its particular taste and aroma. Oleuropein, the most abundant among these components, has been shown to be a potent antioxidant endowed with antiinflammatory properties. We investigated the effects of oleuropein on NO release in cell culture and its activity toward nitric oxide synthase (iNOS) expression. The results show that oleuropein dose-dependently enhance nitrite production in LPS-challenged mouse macrophages. This effect was blocked by the iNOS inhibitor L-NAME, indicating increased iNOS activity. Also, Western blot analysis of cell homogenates show that oleuropein increases iNOS expression in such cells. Taken together, our data suggest that, during endotoxin challenge, oleuropein potentiates the macrophage-mediated response, resulting in higher NO production, currently believed to be beneficial for cellular and organismal protection.
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PMID:Oleuropein, the bitter principle of olives, enhances nitric oxide production by mouse macrophages. 946 66

The vascular endothelial cell is a multipotent cell which has several functions: transport barrier, phagocytosis, coagulation/anticoagulation, fibrinolysis, autocrine/paracrine and metabolic functions. The release of vasoactive agents, such as the vasodilators EDRF (NO) and EDHF, and vasoconstrictors, such as endothelin (ET), represents an important local mechanism altering the balance of vasodilation/ vasoconstriction of the vascular smooth muscle cell. Inhibition of the synthesis of NO by exogenous (e.g. L-NAME) or endogenous (e.g. ADMA) L-arginine analogues may cause transient or sustained hypertension. A similar effect may be achieved by continuous administration of the potent vasoconstrictor ET. Endothelial dysfunction, associated with a deficient NO production and release as well an enhanced ET generation, may be present in some forms of vascular disease, such as hypertension, atherosclerosis, diabetes mellitus or sleep apnea. Whether such alterations may be a cause of hypertension and involved in the maintenance of high blood pressure or whether they represent a consequence of the hypertensive disease remains to be concluded. Furthermore, while there is emerging evidence that endothelial dysfunction in cardiovascular disease may be reversed by therapy, it remains to be determined whether measures of endothelial function in man may serve as predictors for morbidity or mortality.
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PMID:Measures of endothelial function as an endpoint in hypertension? 949 29

Bradykinin is a substrate for both neutral endopeptidase 24.11 (NEP) and angiotensin-converting enzyme (ACE). Our previous studies showed that ACE inhibitors can stimulate nitric oxide production in coronary microvessels, which is mediated by local kinins. Whether inhibition of NEP also can affect local vascular NO production has not been established. To determine the role of NEP in the control of NO production, coronary microvessels were isolated from seven mongrel dogs. Two NEP inhibitors, phosphoramidon and thiorphan, and an ACE inhibitor, ramiprilat, were used. Nitrite, the metabolite of NO in aqueous solution, was measured by using the Griess reaction. Phosphoramidon and thiorphan (10(-6) M) increased nitrite production from 80 +/- 6 to 136 +/- 6 and 144 +/- 7 pmol/mg, respectively. Ramiprilat (10(-8) M) increased nitrite production from 78 +/- 6 to 155 +/- 7 pmol/mg wet weight. The effect of these agents on nitrite release was blocked by L-NAME, which inhibits NO synthase, HOE-140, which blocks bradykinin B2-receptor, and dichloroisocoumarin, which blocks kinin-forming enzymes. These results clearly indicate that inhibition of kinin metabolism by using neutral endopeptidase inhibitors increases NO production from coronary microvessels. Thus neutral endopeptidase plays an important role in local kinin-modulated NO production in the coronary microcirculation and NEP inhibitors may be useful clinical tools in treatment of cardiovascular disease.
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PMID:Neutral endopeptidase and angiotensin-converting enzyme inhibitors increase nitric oxide production in isolated canine coronary microvessels by a kinin-dependent mechanism. 955 14

Endothelins (ET) are 21-aminoacid peptides produced ubiquitously, which were discovered originally as endothelial products. These peptides may play important roles in cardiovascular physiology and pathophysiology. As the pathophysiologic roles of endothelins in cardiovascular disease become increasingly apparent, the potential therapeutic use of endothelin antagonists or endothelin converting enzyme inhibitors is recognized. The main endothelin produced by the endothelium is ET-1. Endothelin-1 is overexpressed in the vascular wall of salt-dependent models of hypertension, such as DOCA-salt hypertensive rats, DOCA-salt-treated spontaneously hypertensive rats (SHR) and Dahl salt-sensitive rats, and in stroke-prone SHR, angiotensin II-infused rats and 1-kidney 1 clip Goldblatt hypertensive rats, but not in SHR, 2-K 1C hypertensive rats or L-NAME-treated rats. The vasoconstrictor effect of ET-1 may contribute to blood pressure elevation and its growth-promoting action to vascular hypertrophy in the hypertensive models which overexpress ET-1 in blood vessels. In rats without generalized activation of the endothelin system, expression of ET-1 is often enhanced in coronary arteries, which suggests a role for ET-1 in myocardial ischemia in hypertension. In rats overexpressing ET-1, ETA/B and ETA-selective antagonists lowered blood pressure slightly, and significantly reduced vascular growth, particularly of small arteries, suggesting that ET-1 has a direct effect on growth. Protection from renal injury and from stroke has also been demonstrated in hypertensive rats treated with endothelin antagonists. In normotensive human subjects endothelin-dependent tone can be shown in the forearm. In a study of mild hypertensive patients, the ETA/B antagonist bosentan reduced blood pressure similarly to an ACE inhibitor. Moderate to severe hypertensive patients presented enhanced expression of ET-1 mRNA in the endothelium of subcutaneous resistance arteries. In blacks with familial hypertension increased plasma levels of endothelin have been found. Thus, ET-1 may play a role in some experimental hypertensive models and in human hypertension. In summary, endothelial ET-1 may be overexpressed in the more severe forms of hypertension, and in certain special populations which may respond particularly well to endothelin antagonism. Endothelin antagonists may prove to be effective disease-modifying agents if in future clinical trials they are shown clinically to blunt vascular growth and endothelial dysfunction, reduce stroke and exert the cardioprotective and renal protective effects already reported in experimental hypertension. These agents could contribute to reduce the long-term complications of hypertension, which remains to be demonstrated in humans.
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PMID:Endothelin: role in hypertension. 983 May 7

The endothelins (ET) are potent 21-amino-acid vasoconstrictor peptides produced in many different tissues, particularly in the endothelium of blood vessels. ET-1 is the main endothelin secreted by the endothelium, and acts in a paracrine or autocrine fashion on blood vessels by interacting with ETA or ETB receptors on smooth muscle to stimulate contraction or on ETB receptors on endothelial cells to induce the release of vasorelaxants (nitric oxide and prostacyclin). Production of ET-1 is enhanced in several experimental models of hypertension in the rat, such as sodium-sensitive forms, e.g. deoxycorticosterone acetate (DOCA)-salt hypertensive, DOCA-salt-treated spontaneously hypertensive rats (SHR) and Dahl salt-sensitive rats, as well as other models such as stroke-prone SHR, angiotensin II-infused rats and fructose-fed rats, and possibly 1-K 1C Goldblatt hypertensive rats. In contrast, SHR, 2-K 1C Goldblatt hypertensive rats and nitric oxide-deficient (L-NAME-treated) hypertensive rats do not exhibit an ET-1 component. Endothelin dependency is manifested by excessive vascular growth, particularly in small arteries, and blood pressure lowering and regression of vascular growth after treatment with endothelin antagonists. The latter may be combined ETA/ETB or selective ETA antagonists, of which several are orally active and already in clinical development. In humans, endothelin-dependent vascular tone has been shown in studies of forearm blood flow. Enhanced expression of ET-1 mRNA has been demonstrated in the endothelium of small arteries of patients with moderate to severe hypertension. In a 4-week trial the combined ETA/ETB antagonist bosentan reduced the blood pressure of essential hypertensive patients equally to enalapril. Bosentan improved hemodynamics in patients with heart failure in acute and 2-week-long studies. Endothelin antagonists also offer promise in a rapidly fatal condition, primary pulmonary hypertension. Thus, the endothelin system appears to be involved in different forms of cardiovascular disease in experimental animals and humans, and its interruption offers great promise as a new therapeutic intervention in hypertension, heart failure and other diseases.
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PMID:Endothelin and endothelin antagonists in hypertension. 988 74

Adenoviruses (Ad) are a significant cause of acute infections in humans; however, replication-defective forms of this virus are currently under investigation for human gene therapy. Approximately 20 to 25% of all the gene therapy trials (phases I to III) conducted over the past 10 years involve the use of Ad gene delivery for treatment inherited or acquired diseases. At present, the most promising applications involve the use of Ad vectors to irradicate certain nonmetastatic tumors and to promote angiogenesis in order to alleviate cardiovascular disease. While specific problems of using Ad vectors remain to be overcome (as is true for almost all viral and nonviral delivery methods), a distinct advantage of Ad is the extensive knowledge of its macromolecular structure, genome organization, sequence, and mode of replication. Moreover, significant information has also been acquired on the interaction of Ad particles with distinct host cell receptors, events which strongly affect virus tropism. This review provides an overview of the structure and function of Ad attachment (coxsackievirus and Ad receptor [CAR]) and internalization (alpha(v) integrins) receptors and discusses their precise role in virus infection and gene delivery. Recent structure studies of integrin-Ad complexes by cryoelectron microscopy are also highlighted. Finally, unanswered questions arising from the current state of knowledge of Ad-receptor interactions are presented in the context of improving Ad vectors for future human gene therapy applications.
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PMID:Role of alpha(v) integrins in adenovirus cell entry and gene delivery. 1047 14

Nebivolol is a newer beta1-selective adrenergic receptor antagonist, which unlike classic beta-blockers, lowers systemic vascular resistance by direct vasodilator effects possibly involving NO. This study was designed to determine the effects of nebivolol on small arteries, which contribute to the most part of systemic vascular resistance. Mesenteric arteries, isolated from 9-week-old Wistar-Kyoto (WKY) rats, were studied under perfused and pressurized conditions using a video dimension analyzer. Aortic rings from the same animals were suspended in organ chambers, and isometric tension was measured. Experiments were performed during contraction to prostaglandin F2alpha. In small arteries, nebivolol (10(-9) to 3 x 10(-5) M) induced concentration-dependent relaxations (maximum, 55 +/- 8%). The relaxations were less pronounced as compared with those to acetylcholine (maximum, 99 +/- 2%; p < 0.05), but were significantly greater than those to atenolol (maximum, 2 +/- 0%; p < 0.05). Nebivolol-induced responses were markedly reduced by the NO-synthase inhibitor N(omega)-nitro-L-arginine methylester (L-NAME; 10(-4) M; maximum, 11 +/- 2%; p < 0.05). This inhibition could be entirely reversed by pretreatment with L-arginine (10(-3) M; maximum, 46 +/- 7%), a precursor of NO. In contrast to mesenteric arteries, nebivolol did not affect vascular tension of precontracted aortas. These findings indicate that nebivolol induces NO-mediated relaxations in small arteries but not large elastic vessels and therefore, independent of its antihypertensive action, might be effective in protecting the microcirculation in various cardiovascular disease states.
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PMID:Nebivolol induces NO-mediated relaxations of rat small mesenteric but not of large elastic arteries. 1097 88

Angiotensin (Ang-II) is a key molecule in the development of cardiac ischaemic disorders and displays proinflammatory activity in vivo. Since intracellular cyclic nucleotides elevating agents have proved to be effective modulators of leukocyte recruitment, we have evaluated their effect on Ang-II-induced leukocyte-endothelial cell interactions in vivo using intravital microscopy within the rat mesenteric microcirculation. Pretreatment with iloprost significantly inhibited (1 nM) Ang-II-induced increase in leukocyte rolling flux, adhesion and emigration at 60 min by 96, 92 and 90% respectively, and returned leukocyte rolling velocity to basal levels. Pretreatment with salbutamol or co-superfusion with forskolin exerted similar effects. When theophylline was administered, leukocyte rolling flux, adhesion and emigration elicited by Ang-II were significantly attenuated by 81, 89 and 71% respectively. Rolipram administration caused similar reduction of Ang-II-induced leukocyte responses. Co-superfusion of Ang-II with the NO-donor, spermine-NO, or 8-Br-cyclic GMP, or pretreatment with a transdermal nytroglycerin patch, resulted in a significant reduction of the leukocyte-endothelial cell interactions elicited by Ang-II. Salbutamol preadministration did not modify leukocyte-endothelial cell interactions elicited by either L-NAME or L-NAME+Ang-II, indicating that the inhibitory leukocyte effects caused by cyclic AMP-elevating agents are mediated through NO release. In conclusion, we have provided evidence that cyclic AMP elevating agents and NO donors, are potent inhibitors of Ang-II-induced leukocyte-endothelial cell interactions. Thus, they could constitute a powerful therapeutical tool in the control of the leukocyte recruitment characteristic of the vascular lesions that occur in cardiovascular disease states where Ang-II plays a critical role.
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PMID:Cyclic AMP elevating agents and nitric oxide modulate angiotensin II-induced leukocyte-endothelial cell interactions in vivo. 1139 65

Amlodipine is a mixture of two enantiomers, one having L-type channel blocking activity (S-) and the other about 1,000-fold weaker activity and of little known other activity (R+). To determine whether the R+ enantiomer releases nitric oxide, the ability of amlodipine, its enantiomers, and nitrendipine to release nitric oxide in isolated coronary microvessels and to regulate cardiac tissue oxygen consumption via nitric oxide release was studied in vitro. Amlodipine and the R+ enantiomer released nitric oxide in a concentration-dependent fashion, increasing nitrite release from coronary microvessels by 57 +/- 12 and 45 +/- 5 pmol/mg/20 min at 10(-6) M (p < 0.05 from control). Nitrite release was entirely blocked by N(omega)-nitro-L-arginine methyl ester (L-NAME), a nitric oxide synthase inhibitor, and HOE-140, a B2-kinin receptor antagonist. The S- enantiomer had no effect on nitrite release at any concentration. Amlodipine and the R+ enantiomer also reduced oxygen consumption in canine cardiac tissue in vitro and this was in an L-NAME-blockable manner. The S- enantiomer of amlodipine had no effect. This study shows that the R+ enantiomer of amlodipine is responsible for the release of nitric oxide and not the S- enantiomer (the L-type calcium channel blocking portion of amlodipine). Interestingly, nitric oxide release is dependent on the production of kinins because it is blocked by HOE-140. This study defines a potentially important property by which calcium channel blockers may release nitric oxide and may contribute to their use in the treatment of cardiovascular disease.
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PMID:Paradoxical release of nitric oxide by an L-type calcium channel antagonist, the R+ enantiomer of amlodipine. 1179 Oct 6

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