UMLS:C0018801 - FACTA Search

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The renin-angiotensin system (RAS) is a widely studied hormonal system that comprises substrate-enzyme interactions, the end result of which is production of the active peptide angiotensin II (Ang II). Because Ang II affects blood pressure control, sodium and water homeostasis, and cardiovascular function and structure, a great deal of research effort has been directed toward blocking the RAS. Angiotensin II may also be involved in end-organ damage in hypertension, heart failure, and vascular disease. At least two subtypes of angiotensin II receptors have been identified: AT1 and AT2. The AT1 mediates all of the known actions of Ang II on blood pressure control. Additionally, research has indicated that the AT1 receptor modulates cardiac contractility and glomerular filtration, and increases renal tubular sodium reabsorption, and cardiac and vascular hypertrophy. Less is known regarding the function of the AT2 receptor. Evidence suggests that the AT2 receptor inhibits cell proliferation and reverses AT1-induced hypertrophy. Indeed, these receptors are thought to exert opposing effects. Angiotensin II AT1 receptor antagonists (AT1RA) inhibit the RAS at the receptor level by specifically blocking the AT1 receptor subtype. These drugs induce a dose-dependent blockade of Ang II effects, resulting in reduced blood pressure, urinary protein, and glomerular sclerosis. It is postulated that AT1RA may provide end-organ protection by blocking Ang II effects via the AT1 receptor, yet leaving the AT2 receptor unopposed. Consequently, these agents may reduce the morbidity and mortality that result from myocardial infarction (MI) and other conditions resulting from structural alterations in the heart, kidney, and vasculature.
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PMID:Angiotensin II receptor blockade and end-organ protection. 1061 95

Angiotensin II AT1 receptor blockade (AT1-) has been shown to prolong survival in post-myocardial infarction (MI) heart failure in rats. In this study, we investigated whether an early AT1-induced improvement in coronary vasodilatation reserve (CVR) might be involved in this beneficial effect. Wistar rats with MI were treated daily and orally for 6 weeks with valsartan, 5 (MI-V5) or 50 mg/kg (MI-V50). MI-controls and sham-operated rats (S-controls) received no treatment. Subsequently, systemic and coronary haemodynamics (at baseline and at maximal vasodilatation, CVR fluospheres) were investigated in the conscious state, and cardiac remodelling (hypertrophy and fibrosis) was assessed. As compared to MI-controls. valsartan (5 mg/kg), had no effect on systemic haemodynamics or myocardial hypertrophy and fibrosis development, gave slightly improved basal left and right ventricular coronary flow and resistance values, but decreased left and right CVR values. Valsartan (50 mg/kg), decreased blood pressure (-11%) and left ventricular end diastolic pressure (-32%), limited the development of cardiac hypertrophy (19%) but not that of fibrosis, slightly improved basal left ventricular flow and resistance values but only the right ventricular CVR value was increased. We conclude that in rats with post-MI. an early AT1-induced improvement in coronary haemodynamics is not responsible for the long-term survival prolongation observed. Furthermore. that cardiac hypertrophy was prevented whereas fibrosis was not, suggests that the latter is a pivotal determinant of CVR.
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PMID:Valsartan and coronary haemodynamics in early post-myocardial infarction in rats. 1062 50

Angiotensin II (AII) is a major determinant of arterial pressure and volume homeostasis, mainly because of its vascular action via the AII type 1 receptor (AT1R). AII has also been implicated in the development of cardiac hypertrophy because angiotensin I-converting enzyme inhibitors and AT1R antagonists prevent or regress ventricular hypertrophy in animal models and in human. However, because these treatments impede the action of AII at cardiac as well as vascular levels, and reduce blood pressure, it has been difficult to determine whether AII action on the heart is direct or a consequence of pressure-overload. To determine whether AII can induce cardiac hypertrophy directly via myocardial AT1R in the absence of vascular changes, transgenic mice overexpressing the human AT1R under the control of the mouse alpha-myosin heavy chain promoter were generated. Cardiomyocyte-specific overexpression of AT1R induced, in basal conditions, morphologic changes of myocytes and nonmyocytes that mimic those observed during the development of cardiac hypertrophy in human and in other mammals. These mice displayed significant cardiac hypertrophy and remodeling with increased expression of ventricular atrial natriuretic factor and interstitial collagen deposition and died prematurely of heart failure. Neither the systolic blood pressure nor the heart rate were changed. The data demonstrate a direct myocardial role for AII in the development of cardiac hypertrophy and failure and provide a useful model to elucidate the mechanisms of action of AII in the pathogenesis of cardiac diseases.
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PMID:Overexpression of angiotensin II type I receptor in cardiomyocytes induces cardiac hypertrophy and remodeling. 1063 82

The purpose of this study was to examine if there is a relation between the aldosterone escape phenomenon and venous capacitance of the upper and lower limbs in patients with long-term congestive heart failure (CHF) receiving chronic treatment with angiotensin-converting enzyme (ACE) inhibitors. The study group consisted of 16 subjects with ischemic CHF in New York Heart Association functional class II (age 59 +/-2 years, ejection fraction 24+/-4%), stabilized under a constant drug regimen comprising furosemide, captopril 50 mg 3 times daily, and digoxin for at least 3 months. Thirteen apparently healthy volunteers, aged 50+/-4 years acted as controls. Forearm and calf venous capacitances were measured simultaneously by venous occlusion plethysmography using mercury-in-silastic strain gauges. The equilibration technique was used to derive venous capacitance from the recorded pressure-volume curves. Active renin, angiotensin II, and aldosterone levels were determined on venous blood samples obtained in the supine position. Angiotensin II (p<0.05) and aldosterone (p<0.01) were statistically significantly higher in patients with CHF under long-term ACE inhibition than in controls (aldosterone escape phenomenon). In CHF, forearm venous capacitance was 2.19+/-0.18 ml/100 ml; calf venous capacitance was 2.83+/-0.27 ml/100 ml. Aldosterone significantly and inversely correlated with venous capacitance in both upper (r = -0.586; p = 0.017) and lower (r = -0.625; p = 0.01) limbs. No correlations were found between forearm or calf venous capacitance and renin or angiotensin II. In patients with heart failure chronically treated with diuretics and full ACE inhibition, venous capacitance is inversely correlated with aldosterone through the mechanism of aldosterone escape, creating the potential for further deterioration of the CHF process.
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PMID:Inverse relation between aldosterone and venous capacitance in chronically treated congestive heart failure. 1076 Mar 38

Angiotensin II (Ang II)-mediated sympathostimulation may worsen the progression of cardiac failure, although the nature and mechanisms of such interactions are largely unknown. We previously demonstrated that Ang II combined with evolving cardiodepression (48-hour tachycardia pacing, 48hP) induces marked chamber stiffening and increases metalloproteinases (MMPs). Here, we test the hypothesis that both abnormalities stem from sympathostimulatory effects of Ang II. Forty-eight dogs were instrumented to serially assess conscious ventricular mechanics, MMP abundance and activity, and myocardial histopathology. 48hP combined with 5 days of Ang II (15+/-5 ng. kg(-1). min(-1) IV) more than doubled chamber stiffness (end-diastolic pressure >25 mm Hg, P<0.001), whereas stiffness was unchanged by Ang II or 48hP alone. In vitro and in situ zymography revealed increased MMP abundance and activity (principally 92-kDa gelatinase) from Ang II+48hP. Both stiffening and MMP changes were prevented by cotreatment with high-dose atenolol (which nearly fully inhibited isoproterenol-induced inotropy) but not partial beta-blockade. Myocellular damage with fibroblast/neutrophil infiltration from Ang II+48hP was also inhibited by high- but not low-dose atenolol, whereas collagen content was not elevated with either dose. These data support a role of sympathostimulation by Ang II in modulating myocardial MMP abundance and activity and diastolic stiffening in evolving heart failure and suggest a novel mechanism by which beta-blockade may limit chamber remodeling and diastolic dysfunction.
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PMID:beta-blockade prevents sustained metalloproteinase activation and diastolic stiffening induced by angiotensin II combined with evolving cardiac dysfunction. 1076 16

Experimental data suggests that growth hormone and IGF-1 have beneficial effects on myocardial function in animal models of heart failure. Preliminary evidence suggests an abnormality in the growth hormone-IGF-1 axis in heart failure with relative growth hormone resistance. Beneficial effects of growth hormone and IGF-1 include vasodilatation, stimulation of cardiac hypertrophy, increase in calcium sensitivity of cardiac myofilaments and prevention of apoptosis. Recently, cardiac cachexia has been shown to be a powerful negative predictive factor in heart failure. Cachectic patients have higher angiotensin II levels. In the rat there is an important interaction between the renin-angiotensin system and IGF-1. Thus, angiotensin II infusion causes weight loss in part through a catabolic effect. This effect results from increased protein degradation. Angiotensin II reduces circulating and skeletal muscle IGF-1 but increases IGF-1 and the IGF-IR expression in cardiac muscle. Preliminary data suggest a potential beneficial effect of growth hormone in heart failure. Further trials are necessary to test the potential beneficial effect of growth hormone and/or IGF-1 in heart failure.
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PMID:The growth hormone and insulin-like growth factor 1 axis in heart failure. 1079 May 88

Angiotensin II AT1-receptor blockers (AT1-s) prolong survival in experimental postischemic (coronary artery ligation) heart failure (CHF) in rats. The goal of this study was to investigate whether potential beneficial effects of short- and/or long-term treatment with AT1-s on coronary dynamics, function, and structure develop along with the drug-induced survival prolongation in this model. Coronary blood flow was measured (fluorescent microspheres) in conscious sham, untreated, and irbesartan-treated (50 mg/kg daily for 6 weeks or 6 months, starting 8 days after surgery) CHF rats at baseline and at maximal vasodilatation induced by dipyridamole, and coronary dilatation reserve (CDR) was calculated as the ratio of maximal to baseline coronary flow. Coronary endothelial function was assessed in vitro by measuring the coronary relaxant responses to acetylcholine in the three groups of animals. Finally, cardiac hypertrophy and pericoronary fibrosis also were investigated. In CHF rats, left (LV) and right (RV) ventricular CDR were markedly depressed at both 7 weeks and 6 months after ligation, whereas coronary endothelial function was significantly impaired only after 6 months. Short-term AT1-receptor blockade with irbesartan did not prevent CDR deterioration at 7 weeks, nor did it significantly oppose cardiac hypertrophy and pericoronary fibrosis development. Prolonged AT1-receptor blockade prevented both RV CDR deterioration and coronary endothelial function impairment. It also limited significantly the increase in LV end diastolic pressure and the development of cardiac hypertrophy and pericoronary fibrosis. In conclusion, in postischemic CHF in rats, alterations of CDR precede those of coronary endothelial function. Long-, but not short-term AT1-receptor blockade prevents endothelial function degradation, opposes RV CDR impairment, prevents pericoronary fibrosis development, and improves systemic hemodynamics. These effects of AT1-s on coronary dynamics, function, and structure (i.e., on myocardial perfusion) may contribute to the drug-induced survival prolongation in this model.
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PMID:Effects of angiotensin II AT1-receptor blockade on coronary dynamics, function, and structure in postischemic heart failure in rats. 1097 90

Angiotensin II is the most active hormone of the renin-angiotensin system. In humans, two angiotensin receptors have been identified: AT(1) and AT(2). In adults, most of the effects of angiotensin II are mediated by the AT(1) receptor; the function of the AT(2) receptor is not yet well established. Angiotensin II has both systemic and local paracrine effects. Increased activity of angiotensin II and stimulation of the AT(1) receptor have been linked to the development of several cardiovascular and renal diseases, including hypertension, heart failure, left ventricular hypertrophy, and diabetic nephropathy. Over the past two decades, angiotensin-converting enzymes have been used to manage these diseases. However, the side effects and less-than- maximum therapeutic effects of angiotensin-converting enzyme inhibitors, particularly in the decrease of mortality associated with congestive heart failure, have led to the development of AT(1)-receptor blockers.
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PMID:Mechanism of action of angiotensin-receptor blocking agents. 1098 Oct 80

The renin-angiotensin system plays a pivotal role in the regulation of fluid, electrolyte metabolism and blood pressure. Molecular cloning and pharmacological studies have defined two major classes of Angiotensin II (Ang II) receptors, designated AT1 and AT2. Recently, it has been well recognized that Ang II, beside its classical physiological actions, is a profibrogenic peptide and displays characteristics of a growth factor. The emerging picture suggests that angiotensin receptor subtypes exert opposing features in many aspects of their biological function, most importantly in cellular growth and proliferation. Accordingly, the proliferative and/or growth-promoting effects of Ang II are thought to be mediated by AT1 receptor, whereas the AT2 receptor subtype may have growth-inhibitory properties. The novel finding that Ang II is able to induce apoptosis by AT2 receptors in diverse cell types is of great scientific interest, as recent studies revealed a role for apoptosis as a deliberate form of cell death in the pathogenesis of various cardiovascular diseases such as heart failure and vascular remodeling. Furthermore apoptotic cell death might occur during the development of progressive glomerulosclerosis. It is tempting to speculate that autocrine-paracrine vasoactive substances such as Ang II might regulate these apoptotic processes during pathogenic conditions.
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PMID:Apoptosis induction and inhibition of cellular proliferation by angiotensin II: possible implication and perspectives. 1103 44

Angiotensin II (angiotensin) and transforming growth factor (TGF)-beta(1) play an important role in cardiac fibrosis. We examined Smad proteins in 8-wk post-myocardial infarction (MI) rat hearts. AT(1) blockade (losartan) attenuated the activation of TGF-beta(1) in target tissues. Losartan administration (8 wk, 15 mg. kg(-1). day(-1)) normalized total Smad 2 overexpression in infarct scar and remnant heart tissue and normalized Smad 4 in infarct scar. Phosphorylated Smad 2 (P-Smad 2) staining decreased in cytosol from failing heart vs. the control, which was normalized by losartan, suggesting augmented P-Smad 2 movement into nuclei in untreated failing hearts. Using adult primary rat fibroblasts treated with angiotensin (10(-6) M), we noted rapid translocation (15 min) of P-Smad 2 into the nuclei from the cytosol. Nuclear P-Smad 2 protein level increased with angiotensin treatment, which was blocked by losartan. We conclude that angiotensin may influence total Smad 2 and 4 expression in post-MI heart failure and that angiotensin treatment is associated with rapid P-Smad 2 nuclear translocation in isolated fibroblasts. This study suggests that cross talk between angiotensin and Smad signaling is associated with fibrotic events in post-MI hearts.
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PMID:Interaction between angiotensin II and Smad proteins in fibroblasts in failing heart and in vitro. 1108 60

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