Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In an attempt to diagnose latent heart failure, a transient increase of afterload to left ventricle was produced by angiotensin II, and the ventricular movement was assessed by echocardiography. Angiotensin II was administered in a dose of 0.075 micrograms/kg body weight. Blood pressure was elevated by 40.5 +/- 14.5 mmHg in 38 cases with latent heart failure and by 41.2 +/- 4.5 mmHg in 30 normal subjects. Yet, only in the former group, posterior wall excursion of left ventricle reduced from 11.4 +/- 2.4 mm to 7.3 +/- 2.3 mm and mean posterior wall velocity from 41.4 +/- 10.1mm/sec to 26.5 +/- 8.8 mm/sec. The rates of these reductions were inversely correlated to the rate of elevation of left ventricular endodiastolic pressure as determined in 5 cases by cardiac catheterization. There was no change in 30 subjects. The data indicate the usefulness of angiotensin-induced echocardiographic changes in detecting latent cadiac failure.
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PMID:Ultrasonodiagnosis of subclinical heart failure by increasing afterload with angiotensin II. 47 Jan 39

The effect of an angiotensin-converting enzyme inhibitor on the circulating levels of angiotensin I, angiotensin II, and arginine vasopressin was studied in dogs subjected to hypotensive hemorrhagic shock. In dogs subjected to hemorrhage but not given the inhibitor, angiotensin II rose 20-fold (from 69 to 1,343 pg/ml of plasma), whereas in dogs subjected to hemorrhage but pretreated with the inhibitor, angiotensin II rose only 2-fold (from 92 to 171 pg/ml of plasma). In the pretreated dogs angiotensin I rose 30-fold (from 108 to 3,232 pg/ml of plasma). There was no statistically significant difference between the vasopressin levels found in the untreated dogs and the levels found in dogs given the inhibitor (1,016 and 1,095 pg/ml of plasma). Of the 15 dogs in the untreated group, five died before retransfusion was completed (four of cardiac failure and one of cardiac arrhythmia); none of the 10 dogs in the inhibitor-treated group died. These observations suggest that the very high levels of angiotensin II observed following severe hemorrhage do not contribute significantly to the increased secretion of vasopressin and that the inhibitor protects against death, possibly by suppressing the very high blood levels of angiotensin II observed following this type of experimental hemorrhagic shock.
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PMID:Effect of angiotensin-converting enzyme inhibitor (SQ 20881) on the plasma concentration of angiotensin I, angiotensin II, and arginine vasopressin in the dog during hemorrhagic shock. 89 Aug 86

ACE-inhibitors improve symptoms and prognosis in patients with heart failure. The V-Heft II trial has demonstrated that the beneficial effect of these agents is superior to unspecific vasodilators. Besides sustained arterial and venous vasodilation the inhibition of the neurohumoral axis is thought to play an important role. Angiotensin II and catecholamines not only exert vasoconstrictor effects, but might also contribute to vascular and myocardial growth. Thus, it may not be surprising that the beneficial effects of ACE inhibitors in heart failure only emerge during long-term therapy rather than after short-term administration. It has been shown that these agents improve blood flow to skeletal muscle during exercise after chronic therapy (not acutely), and there is some preliminary evidence that improvement of endothelial function might be involved in this effect, i.e., by reducing the degradation of bradykinin, an endothelial vasodilator. ACE inhibitors reduce LV hypertrophy, an important risk factor for cardiovascular disease and prognosis. Moreover, there is experimental evidence that ACE inhibitors can prevent and even reverse interstitial fibrosis in the left ventricle. Although the plasma renin activity may be normal in patients with chronic heart failure, recent data using polymerase chain reaction indicate that the tissue cardiac renin angiotensin system is activated in the failing human heart as assessed by measurements of angiotensin converting enzyme mRNA and angiotensinogen mRNA which may be an important target for ACE-inhibition.
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PMID:[The value of ACE inhibitors in heart failure (mechanism of action)]. 129 Mar 8

The actions of angiotensin II can be described in terms of the three paradigms listed in Table 1. According to the first paradigm (organ physiology), angiotensin II is a pressor, while the second (cell biochemistry) views it as an extracellular messenger that, by promoting Ca2+ release within cells, causes vasoconstriction and a weak positive inotropic response by the heart. However, neither of these paradigms fully explains the remarkable ability of angiotensin converting enzyme inhibitors to improve the prognosis for patients with heart failure. To account for these clinical effects of angiotensin converting enzyme inhibitors, we will probably need to invoke the third paradigm (gene expression), which views angiotensin II as a growth factor that promotes and modifies protein synthesis. Angiotensin II, therefore, should probably not be viewed simply as a vasoconstrictor with a side effect to promote hypertrophy, but instead as a growth factor that, because it utilizes Ca2+ to mediate its effects on gene expression, also increases smooth muscle tone and myocardial contractility. This view of angiotensin II as a growth factor helps us to understand the clinical benefit of angiotensin converting enzyme inhibitors as arising from inhibition of maladaptive changes in the failing heart (gene expression) as well as from the reduced afterload (organ physiology) that results from decreased smooth muscle tone (cell biochemistry).
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PMID:Is angiotensin II a growth factor masquerading as a vasopressor? 134 1

In vitro coronary artery responsiveness to angiotensin I, angiotensin II, noradrenaline, phenylephrine, BHT 920, and potassium chloride together with functional relaxation to acetylcholine was investigated in dogs with pacing-induced heart failure treated with enalapril (oral administration of 10 mg.day-1) for a mean duration of 26 days. Although maximal responses generated to both angiotensin I and angiotensin II were unaltered in the enalapril-treated group, angiotensin II became more potent following enalapril treatment: the EC50 for angiotensin II following placebo treatment was 2.4 (0.6-5.8; 95% confidence limits) nM and following enalapril treatment was 0.03 (0.007-0.1; 95% confidence limits) nM. In addition to the above changes, coronary artery rings from dogs treated with enalapril developed significantly less tension to noradrenaline, phenylephrine, and BHT 920. In contrast, responses to potassium chloride were unaltered following enalapril treatment. However, the relaxation to acetylcholine was enhanced from 38.9 +/- 3.0 to 50.4 +/- 3.5% (placebo versus enalapril, p < 0.05). These findings indicate that enalapril may possess alpha-blocking properties and enhance the relaxation response to acetylcholine through an endothelial-dependent mechanism in addition to inhibiting converting enzyme.
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PMID:Impact of enalapril therapy on in vitro coronary artery responsiveness in pacing-induced heart failure. 136 90

The intrarenal renin-angiotensin system (RAS) may contribute to the pathophysiology of heart failure by the generation of angiotensin II at local sites within the kidneys. Angiotensin II may directly influence renal hemodynamics, glomerular contractility, and tubular sodium reabsorption, thereby promoting sodium and fluid retention in this syndrome. In the present study, we examined components of the circulating RAS as well as the intrarenal expressions of renin and angiotensinogen mRNA in rats with stable compensated heart failure (HF) 12 wk after experimental myocardial infarction. Renal angiotensinogen mRNA level in vehicle-treated HF rats increased 47%, as compared with sham control rats (P = 0.001). The increase in angiotensinogen mRNA levels was more pronounced in animals with medium (46%, P < 0.05) and large (66%, P < 0.05) infarcts than in those with small infarcts (31%, P = NS). There were no differences in liver angiotensinogen mRNA, circulating angiotensinogen, angiotensin II, plasma renin concentration (PRC), kidney renin content (KRC), and renal renin mRNA level between sham and HFv. In addition, in a separate group of rats with heart failure, we demonstrated that renal angiotensin II concentration increased twofold (P < 0.05) as compared with that of age-matched sham operated controls. A parallel group of heart failure rats (HFe, n = 11) was treated with enalapril (25 mg/kg per d) in drinking water for 6 wk before these measurements. Blood pressure decreased significantly during treatment (91 vs. 103 mm Hg, P < 0.05). Enalapril treatment in HF rats increased renin mRNA level (2.5-fold, P < 0.005), KRC (5.6-fold, P = 0.005), and PRC (15.5-fold, P < 0.005). The increase in renal angiotensinogen mRNA level observed in HFv rats was markedly attenuated in enalapril treated HF rats (P < 0.001), suggesting a positive feedback of angiotensin II on renal angiotensinogen synthesis. These findings demonstrate an activation of intrarenal RAS, but no changes in the circulating counterpart in this model of experimental heart failure, and they support the concept that the intrinsic renal RAS may contribute to the pathophysiology in this syndrome.
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PMID:Evidence for tissue-specific activation of renal angiotensinogen mRNA expression in chronic stable experimental heart failure. 140 Oct 84

We have given a series of incremental intravenous injections of captopril to ten patients with chronic cardiac failure. Small doses of captopril produced significant changes in pulmonary artery end-diastolic pressure and right atrial pressure, up to a total cumulative dose of captopril of 2.5 mg, after which further injections had no significant effect. There were large changes in systemic vascular resistance and blood pressure up to a cumulative dose of captopril of 5.0 mg, after which the injection of larger doses caused no further significant changes. Small doses of intravenous captopril produced large increases in plasma renin activity and plasma angiotensin I concentrations up to a total cumulative dose of captopril of 1.25 mg, after which there were no significant further changes in either plasma renin activity or plasma angiotensin I concentration. However the plasma concentration of angiotensin II fell more slowly, no further change being recorded after a total cumulative dose of captopril of 10 mg. These results suggest that plasma renin activity is not the only determinant of plasma angiotensin II concentrations.
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PMID:Lack of correlation between the acute haemodynamic response to intravenous captopril and plasma concentrations of angiotensin II in patients with chronic cardiac failure. 150 1

Previous physiological and biochemical studies suggest the existence of an endogenous renin-angiotensin system (RAS) in the kidney. However, these data cannot exclude the contribution of the circulating RAS. Proof of the local synthesis of RAS components in the kidney has been obtained recently through the use of molecular biological techniques. Using Northern blot analysis, we have demonstrated the intrarenal expression of renin, angiotensinogen, and angiotensin-converting enzyme messenger RNAs. Employing in situ hybridization histochemistry, we have localized the intrarenal tissue sites of renin and angiotensinogen messenger RNA synthesis. Renin gene expression was found in cells of the juxtaglomerular apparatus. Angiotensinogen mRNA was primarily produced in the proximal convoluted tubule with lesser amounts in glomerular tufts and vasculature. These findings led us to hypothesize that the proximal tubule is a major site of renal Ang II synthesis and that locally synthesized Ang II might directly modulate tubular function. Both genes are subject to feedback regulation. Our studies showed that Ang II exerted a stimulatory effect on angiotensinogen but a negative feedback effect on renin gene expression. Dietary NaCl restriction stimulated the expression of both genes, although the onset of renin gene activation required more prolonged sodium chloride restriction. Furthermore, our data indicated that the sodium cation, irrespective of the anion, was primarily important in regulating renal angiotensinogen mRNA levels. Our studies also showed altered intrarenal renin or angiotensinogen expressions in pathophysiological states, e.g. in experimental heart failure and the spontaneously hypertensive rat. Taken together, these data support the existence of a intrarenal RAS and suggest its potential roles in the regulation of renal function in health and disease.
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PMID:Evolving concepts of the intrarenal renin-angiotensin system in health and disease: contributions of molecular biology. 170 1

The prognosis for patients with congestive heart failure (CHF) is poor, with a mortality exceeding 50% within 5 years from diagnosis. This poor prognosis remains despite improved pharmacological therapy. Because the prevalence of sudden death among these patients is high, reported to exceed 40%, the prognostic importance of ventricular tachyarrhythmias has attracted much interest. Long-term electrocardiographic monitoring of patients with CHF reveals a high prevalence of ventricular premature beats, which in many patients occur frequently or are complex according to Lown criteria. Ventricular tachycardia (three or more consecutive beats) has been recorded in 40% or more of the patient population. Whether the occurrence and/or severity of ventricular tachyarrhythmia detected on Holter electrocardiograms relates to the subsequent prognosis is, however, debated. The occurrence of ventricular tachyarrhythmia may just be an expression of severely compromised left ventricular function, which, in turn, decides the subsequent outcome of the disease. Besides myocardial injury, patients with CHF have many factors that may contribute to the high prevalence of ventricular arrhythmias. Among these are elevated levels of plasma norepinephrine. Angiotensin II may increase the sensitivity to sympathetic nervous system arousal but also promotes renal loss of potassium and magnesium. Treatment with digitalis and diuretic drugs may provoke arrhythmias as well. Heart failure therapy may, however, also improve ventricular arrhythmias. Accordingly, it has been demonstrated that captopril therapy significantly reduces ventricular prematurity, compared with digitalis. In contrast, however, enalapril improvement of mortality was due to a reduction of progressive heart failure, with no difference seen in the incidence of sudden cardiac death (the CONSENSUS study).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of congestive heart failure treatment on incidence and prognosis of ventricular tachyarrhythmias. 172 20

The effects of the angiotensin converting enzyme inhibitor captopril, after treatment for 5-6 weeks with 25 mg t.i.d., were studied in 12 patients with stable moderate heart failure. Five patients received placebo treatment, and the two groups were comparable at baseline. Angiotensin II levels decreased in response to captopril therapy. Skeletal muscle potassium, magnesium and chloride levels did not differ from reference values. Calcium was subnormal (P less than 0.0001), but increased to the reference range during captopril treatment. Phosphofructokinase, a rate-limiting glycolytic enzyme, was in the lower reference range and increased (P less than 0.04) in response to captopril therapy. In conclusion, stable moderate heart failure is associated with low levels of skeletal muscle calcium and phosphofructokinase activity, these metabolic changes tending to return to normal levels with captopril treatment.
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PMID:Skeletal muscle depressed calcium and phosphofructokinase in chronic heart failure are upregulated by captopril--a double-blind, placebo-controlled study. 182 3


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