Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The infusion of endothelin to obtain plasma levels as present in sodium-retaining conditions such as heart failure and hepatorenal syndrome has been shown to cause sodium retention and renal vasoconstriction. Whether these renal effects of endothelin could be modulated by the stimulation of nitric oxide production by the infusion of L-arginine was examined. Therefore, the renal and endocrine effects of the systemic administration of endothelin (2.5 ng/kg per minute for 90 min), L-arginine (5 mg/kg per minute for 90 min), or the combination of endothelin and L-arginine were studied in healthy subjects under clearance conditions. During endothelin infusion, plasma endothelin levels rose from 3.0 +/- 0.2 to 14.1 +/- 2.4 pmol/L (P < 0.01). Mean arterial pressure increased by 7 mm Hg (P < 0.01). The effects on renal function were disproportionately large: renal vascular resistance increased from 77.5 +/- 3.2 to 124.1 +/- 6.7 mm Hg/min per liter (P < 0.01), and sodium excretion fell from 178 +/- 30 to 83 +/- 11 mumol/min (P < 0.01). Endothelin had no effect on urinary nitrite excretion. L-Arginine caused a fall in blood pressure of 5 mm Hg (P < 0.01) and decreased renal vascular resistance by 12% (P < 0.05). Sodium excretion increased twofold. This was associated with an increase in urinary nitrite excretion from 112 +/- 36 to 465 +/- 190 nmol/min (P < 0.01), suggesting stimulation of renal nitric oxide production. During the combination of endothelin and L-arginine, urinary nitrite excretion increased similarly.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:L-arginine does not prevent the renal effects of endothelin in humans. 770 89

Endothelins (ET) are a family of peptides with potent biological properties. Endothelial cells produce exclusively ET-1 while other tissues produce ET-2 and ET-3. The production of ET requires an increase in intracellular Ca2+. This increase can be induced by physical chemicals (i.e. hypoxia) or receptor-operated stimuli (i.e. thrombin, angiotensin II, arginine vasopressin, transforming growth factor beta 1, interleukin-1). Most of ET is released abluminally towards vascular smooth muscle and less luminally. The main vascular effect of ET are vasodilation (transient), profound and sustained vasoconstriction as well as proliferation of vascular smooth muscle. These biological effects are mediated by distinct receptors. Three ET receptors have been cloned, i.e. ETA-, ETB- and ETC-receptors. In vascular tissue ETA-receptors are expressed on vascular smooth muscle and responsible for vasoconstriction. ETB-receptors are expressed on endothelium and linked to nitric oxide and/or prostacyclin release. Activation of these receptors explains the transient vasodilation with intraluminal application of ET. Vascular smooth muscle cells can express ETB-receptors which contribute to ET-induced vasoconstriction particularly at lower concentrations. The role of the recently cloned ETC-receptor in the vasculature is still uncertain. ET production is increased (as judged from circulating plasma levels) in vascular disease and atherosclerosis in particular, in myocardial infarction and heart failure, pulmonary hypertension and renal disease. ET production is increased in arterial hypertension remains controversial. Non-peptidic ET antagonists have been developed which either block ETA- receptors or ETA- and ETB-receptors simultaneously. The advantage of ETA-receptors is that they leave the endothelium-dependent vasodilation to ET (via ETB-receptor) intact. However, ETB-mediated contraction remains unaffected by these antagonists. In contrast ETA-/ETB-antagonists fully prevent ET-induced vasoconstriction, however, they also inhibit the endothelial effects of the peptide. ET antagonists interfere with the effects of ET in isolated vascular tissue (including that obtained from humans) as well as in vivo. In humans, ETA as well as ETA-/ETB-antagonists inhibit endothelin-induced vasoconstriction. Hence in summary ET are a family of potent peptides with profound effects in the vasculature. Several studies suggest a role of ET in cardiovascular disease. The newly developed ET-antagonists are potent and selective tools to delineate the (patho-)physiological roles of ET and may become a new class of cardiovascular drugs.
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PMID:Endothelin and endothelin antagonists: pharmacology and clinical implications. 771 86

The endothelium is critically involved in the regulation of vascular function through its barrier role, via interaction with circulating cells such as platelets, which then release vasoactive or growth regulating agents, through production of substances which may modulate vascular tone and smooth muscle cell growth and also exert anti-thrombotic effects. The release of serotonin, adenosine diphosphate (ADP), or growth factors from platelets adhering to damaged endothelium, the release of endothelium-derived relaxing or contracting factors (nitric oxide, prostanoids, endothelin), the production of growth factors, all of which exert their effects in paracrine or even autocrine fashion, are some of the mechanisms whereby the endothelium influences vascular tone and growth and platelet aggregation. In different conditions such as hypertension, atherosclerosis, diabetes, heart failure, ischemic heart disease, sepsis, and shock, dysfunction of the endothelium plays an important pathophysiological role through reduction or enhancement of the release of these different products with significant hemodynamic and trophic effects. Therapeutic interventions targeting the endothelium hold promise in the treatment and prevention of some cardiovascular diseases and their complications.
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PMID:The endothelium and control of blood vessel function in health and disease. 789 24

Angiotensin converting enzyme inhibitors (ACEIs) are a cornerstone of treatment of hypertension and heart failure yet their mechanism of action is still debated. This study was designed to test whether the ACEI captopril increases skin microvascular blood flow by a bradykinin-dependent mechanism. Local changes in microvascular blood flow were measured in the skin of rabbits and of human volunteers using a laser Doppler flow probe. Captopril injected intradermally increased skin blood flow over the dose range of 10(-12)-10(-8) mol site in rabbits and humans. In both species the response was abolished by coinjecting either a nitric oxide synthase (NOS) inhibitor or a cyclooxygenase inhibitor. Intradermal bradykinin also increased rabbit skin microvascular blood flow; at 10(-11) mol site it increased mean +/- SE basal blood flow by 88 +/- 12%. The responses to bradykinin or captopril were abolished by coinjecting a bradykinin antagonist, a specific bradykinin B2 receptor antagonist, or inhibitors of NOS or cyclooxygenase. Injecting a specific angiotensin II receptor antagonist at a dose that antagonized the constrictor effects of exogenous angiotensin II did not cause a significant increase in rabbit skin blood flow. This suggests that endogenous angiotensin II does not influence microvascular blood flow in this model. The results indicate that captopril increases skin microvascular blood flow in rabbits and humans secondary to an increase in endogenous tissue bradykinin; this stimulates B2 receptors with subsequent release of prostaglandins and nitric oxide. ACEIs may increase microvascular perfusion by a bradykinin-dependent mechanism.
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PMID:Captopril increases skin microvascular blood flow secondary to bradykinin, nitric oxide, and prostaglandins. 789 12

Previous small clinical trials have suggested that treatment with nitric oxide donors in suspected myocardial infarction can reduce mortality by 30-35%. To confirm this finding in a large-scale trial, we compared molsidomine and its active metabolite linsidomine (a nitric oxide donor) with placebo in 4017 patients with acute myocardial infarction. In our trial, patients without signs of overt heart failure (Killip III/IV) were randomly assigned in a double-blind design within 24 h of symptom onset to receive linsidomine 1 mg/h intravenously for 48 h, followed by 16 mg molsidomine by mouth daily for 12 days (n = 2007), or an identical placebo (n = 2010). All other treatments could be used at the responsible physician's discretion with the exception of systematic vasodilator treatment. The molsidomine and placebo groups showed similar all-cause 35-day mortality (168 [8.4%] vs 176 [8.8%] deaths, p = 0.66), and adjustment for baseline variables in a Cox model had no effect. Similarly, we found no difference for long-term mortality (mean follow-up 13 months; 294 [14.7%] vs 285 [14.2%] deaths, p = 0.67). The two groups showed similar frequencies of major and minor adverse events; only headache was significantly more common in the molsidomine group. Changes in treatment practices and the lower risk profile of our study subjects than of participants in previous trials may explain the results. It is still not clear whether nitric oxide donors can improve survival in higher-risk myocardial infarction patients.
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PMID:The ESPRIM trial: short-term treatment of acute myocardial infarction with molsidomine. European Study of Prevention of Infarct with Molsidomine (ESPRIM) Group. 791 27

Endothelial dysfunction in heart failure could impair nitric oxide production and lead to increased vascular resistance. If endogenous production of nitric oxide is reduced, NG-monomethyl-L-arginine (L-NMMA), an inhibitor of such production, should have a diminished vasoconstrictor effect. We administered L-NMMA to 12 patients being investigated for heart failure. L-NMMA increased median pulmonary and systemic vascular resistances by 61 (range -3 to 240) and 430 (63 to 1609) dynes s cm-5, respectively (p < 0.03 and p < 0.005). Arterial pressures also increased. Median cardiac output fell by 0.6 (0 to -2.3) L per min (p < 0.005). These data suggest that vascular nitric oxide may be another example of a failed counter-regulatory vasodilator system in heart failure.
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PMID:Enhanced basal nitric oxide production in heart failure: another failed counter-regulatory vasodilator mechanism? 799 74

The role of nitric oxide in heart failure is unknown. The high-capacity inducible isoform of nitric oxide synthase is present in the myocardium of patients with idiopathic dilated cardiomyopathy. Plasma nitrate, the stable end-product of nitric oxide production, was significantly increased in patients with heart failure compared with normal controls (means 51.3 and 24.6 mumol/L). Vasodilation caused by increased nitric oxide may compensate for the vasoconstrictor effect of neurohumoral adaptions to heart failure. Alternatively, excess production may be detrimental to the heart by a direct negative inotropic effect.
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PMID:Increased nitric oxide production in heart failure. 791 9

Clinical observations demonstrate an enhanced risk for myocardial infarction in patients with sustained activation of the local and/or systemic renin-angiotensin system, such as a high renin-sodium profile or a heritably enhanced expression of angiotensin converting enzyme. Chronic renin-angiotensin system blockade by angiotensin converting enzyme inhibition in patients with moderate heart failure reduces the rate of myocardial infarction and reinfarction. Preliminary experimental evidence suggests that these clinical observations may be partially explained by a proatherogenic effect of an activated renin-angiotensin system, which can downregulate the endothelial releasability of nitric oxide. Nitric oxide exerts many potentially antiatherogenic effects on endothelium, platelets and low density lipoproteins and indirectly on monocytes and leukocytes. Hypertension-induced chronic distension of elastic arteries upregulates the local renin-angiotensin system in these arteries and thereby downregulates nitric oxide releasability. Enhanced local synthesis of the trophic factor angiotensin-II and reduced releasability of the antitrophic factor nitric oxide appear to cooperate in the trophic adaptation of the distended vessel wall to the enhanced load, but with the disadvantage of enhanced susceptibility for atheroma development due to reduced releasability of nitric oxide. Chronic blockade of the renin angiotensin system by angiotensin converting enzyme inhibitors or by angiotensin receptor type-1 antagonists normalizes a reduced endothelial releasability of nitric oxide in several models, partially by a bradykinin-dependent mechanism. This endothelial protection proved to attenuate the progression of atherosclerosis in experimental models. The antiatherogenic potential of renin angiotensin system blockade in humans is presently under study.
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PMID:Vascular renin-angiotensin-system, endothelial function and atherosclerosis? 794 78

The effect of vascular endothelium, endocardium, and coronary endothelium on vascular tone and myocardial contraction-relaxation sequence in heart failure is discussed. Vascular endothelium affects underlying vascular smooth muscle through paracrine secretion of relaxing and constricting factors. In heart failure, systemic vasoconstriction results not only from neuroendocrine activation, but also from disturbed local endothelial control of vascular tone because of impaired endothelial-dependent vasodilation and because of increased plasma concentration of endothelin. Experimental evidence obtained in isolated cardiac muscle strips established the influence of endocardial endothelium on the duration of myocardial contraction and on the onset of myocardial relaxation. By analogy to vascular endothelium, both diffusible agents that abbreviate (endothelial-derived relaxation factor-like substance) and those that prolong (endocardin) myocardial contraction have been shown to be released from the endocardium. Similar agents are released from the coronary endothelium and, because of the close proximity of capillaries and myocytes, could exert a major effect on myocardial performance. Endothelial dysfunction and concomitant lack of release of myocardial relaxant factors could explain left ventricular relaxation abnormalities observed in the cardiac allograft or in arterial hypertension. Since endothelial-derived relaxation factor or nitric oxide mediates the coronary reactive hyperemic response, a negative inotropic action of nitric oxide could contribute to left ventricular failure when left ventricular wall stress is elevated, as occurs after myocardial infarction in the noninfarcted zone and during left ventricular volume or pressure overload in the absence of adequate hypertrophy.
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PMID:Endothelial control of vascular and myocardial function in heart failure. 794 59

Patients with heart failure have reduced forearm vasodilator responses when endothelial cell nitric oxide production is stimulated by muscarinic agonists. The aim of this study was to determine if activity of the nitric oxide pathway was also abnormal under basal conditions. Forearm blood flow (FBF) was measured with strain-gauge plethysmography in response to the intraarterial infusion of a subsystemic dose range of L-N-monomethylarginine (L-NMMA), a competitive inhibitor of nitric oxide synthase. In 18 normal subjects, the baseline FBF of 3.6 +/- 1.4 was decreased by 0.3 +/- 0.5 (p < 0.01), 1.0 +/- 0.7 (p < 0.01), 1.4 +/- 0.9 (p < 0.01), and 1.3 +/- 1.3 (p < 0.01) ml/min/100 ml forearm volume during infusions of 1, 4, 8, and 16 mumol/min of L-NMMA, respectively. In 10 patients with heart failure, the baseline FBF of 2.6 +/- 0.9 was decreased by 0.4 +/- 0.5 (p < 0.05), 0.4 +/- 0.5 (p < 0.05), 0.9 +/- 0.8 (p < 0.01), and 0.9 +/- 0.7 (p < 0.01) ml/min/100 ml forearm volume with the 4 doses of L-NMMA, respectively. There was no difference in the L-NMMA response between the 2 groups in terms of absolute flow, percent change, or with analysis of covariance to adjust for different baselines. The stable end products of nitric oxide (nitrite and nitrate) were measured in the forearm venous effluent. Nitrite and nitrate levels at baseline were not reduced in patients with heart failure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lack of contribution of nitric oxide to basal vasomotor tone in heart failure. 797 73


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