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)

Congestive chronic heart failure (CHF) is a progressive disorder in which a complex interaction of haemodynamic, neurohormonal and metabolic disturbances leads to subsequent immune activation. The greatest attention has been given to the concept that the progression of heart failure is due to neurohormonal abnormalities and this has led to substantial therapeutic benefits for CHF. The aim of this review is to describe a number of the interactions between neurohormonal pathways and metabolic problems relevant in CHF. Besides the renin-angiotensin-aldosterone-system, steroid and thyroid hormones, growth factors, insulin and inflammatory cytokines (e.g. tumour necrosis factor-alpha [TNF-alpha]) are considered. TNF-alpha is potentially a key molecule with enormous interactive opportunities within a regulatory network of energy metabolism, immune function and neuroendocrine and hormonal function. The most dramatic metabolic problem in heart failure patients is the development of cardiac cachexia. Currently, no specific therapy exists and the prognosis is poor. There are promising approaches (counteracting TNF-alpha or applying anabolic growth factors) but these are not without risk and are expensive, and their application may, therefore, be limited to certain subgroups of patients. In the future, it will not be enough to monitor cardiac function and symptomatic status in heart failure patients. Rather, the patients' metabolic status may need to be taken, as well as an assessment of peak oxygen consumption, body composition and hormonal status.
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PMID:Chronic heart failure as a metabolic disorder. 1263 73

In many forms of cardiomyopathic left ventricular (LV) dysfunction, there is a rapid myocardial expression of pro-inflammatory cytokines such as interleukin 1, interleukin 6 and tumour necrosis factor-alpha (TNF-alpha) which mediate, via specific receptors, various processes such as gene expression, cell growth or apoptosis. In the initial stages of myocarditis, the myocardial expression of proinflammatory cytokines appears to be part of an inflammatory process. In many other conditions such as ischaemic cardiomyopathy and chronic LV pressure or volume overload, myocardial expression of proinflammatory cytokines is triggered by an elevation of LV wall stress. Myocardial expression of cytokines contributes to depression of contractile performance and adverse LV remodelling. Cytokine-induced depression of contractile performance appears to result from sphingosine production, which interferes with myocardial calcium handling. In transgenic mice, the rate of progression of LV dilatation appears to correlate with the intensity of myocardial TNF-alpha overexpression. In heart failure patients, cytokine concentrations are elevated not only in the myocardium but also in plasma. Cytokines are, therefore, responsible not only for autocrine and paracrine signalling within the myocardium but also for endocrine signalling throughout the body, especially affecting striated muscle mass with induction of muscle wasting and cachexia. The source of cytokine production in heart failure remains uncertain and several mechanisms have been proposed including endotoxin-induced immune activation due to bowel oedema, myocardial production due to haemodynamic overload and peripheral extramyocardial production due to tissue hypoperfusion and hypoxia. The latter seems to be the most likely mechanism, possibly modulated by the presence of bacterial endotoxins released from the gut. Numerous drugs have meanwhile been shown to influence this cardioinflammatory response to heart failure either by reducing basal levels of cytokines (e.g. amlodipine, pentoxifylline, beta-blockers) or by reducing endotoxin-induced cytokine gene expression (e.g. ouabain, amiodarone, adenosine, angiotensin converting enzyme inhibitors, angiotensin II-receptor blockers). Direct blockade of the deleterious actions of elevated plasma levels of cytokines recently became possible through intravenous infusion of a soluble TNF-alpha receptor fusion protein, which resulted in an increase in exercise tolerance and LV performance.
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PMID:Cytokines and heart failure. 1263 74

Elevated levels of proinflammatory cytokines, such as tumor necrosis factor (TNF) and interleukin-6 (IL-6), have been demonstrated in patients with chronic heart failure (CHF). Evidence suggests that cytokines such as these may play a central role in the pathogenesis of this syndrome. TNF has several properties that are particularly detrimental in CHF, such as negatively inotropic effects, the promotion of left ventricular remodelling, and the induction of dilated cardiomyopathy in humans. Furthermore, TNF can cause skeletal muscle wasting and apoptosis, and, therefore, may be important in the development of cardiac cachexia. Although the precise stimulus for immune activation in CHF is unknown, one hypothesis is that endotoxin may be a significant trigger for cytokine release. This is supported by the finding that decompensated CHF patients have elevated endotoxin levels that normalize on diuretic therapy. The factors that influence endotoxin responsiveness in patients with CHF, in particular the potential importance of serum lipoproteins, will be discussed in this review.
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PMID:The importance of tumor necrosis factor and lipoproteins in the pathogenesis of chronic heart failure. 1263 90

Ghrelin is a novel growth-hormone-releasing peptide isolated from the stomach that has been identified as an endogenous ligand for the growth-hormone secretagogue receptor. This peptide results in a positive energy balance by stimulating food intake and inducing adiposity through growth-hormone-independent mechanisms. In addition, ghrelin has several cardiovascular effects, as indicated by the presence of its receptor in blood vessels and ventricles of the heart. Infusion of ghrelin decreases systemic vascular resistance and increases cardiac output in patients with heart failure. Furthermore, repeated administration of ghrelin improves cardiac structure and function, and attenuates the development of cardiac cachexia in rats with heart failure. These results suggest that ghrelin has therapeutic potential in the treatment of severe chronic heart failure.
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PMID:Ghrelin improves left ventricular dysfunction and cardiac cachexia in heart failure. 1268 Dec 36

Malnutrition, muscle wasting and cachexia are often present in chronic heart failure (CHF). However, malnutrition in CHF patients is not always as severe as muscle wasting. Data in the literature show that 24% of CHF patients have malnutrition (albumin < 3.5 mg/dl) but 68% have muscle atrophy. This apparent discrepancy can be explained by considering the metabolic role of the striate muscle. In fact, the striate muscle maintains the body metabolic performance by continuous exchanges of fuels (amino acids) with the liver. This happens in case of malnutrition or starvation. In such situations, glucose is produced by gluconeogenesis when amino acids are metabolized in the liver. Malnutrition, muscle wasting and the frequent progression through cachexia can be reduced by specific therapy such as cytokine and/or catabolic hormone antagonists. This is because cytokines and catabolic hormones, with consequent insulin resistance, cause muscle wasting. An alternative and/or complementary therapy may be exogenous amino acid supplementation. In fact, amino acids: a) are rapidly absorbed regardless of pancreatic activity, b) reduce insulin resistance, c) induce the hepatic synthesis of anabolic molecules such as growth hormone and insulin-like growth factor, and d) modulate the catabolic hormonal-mediated effects on adipocytes. Research on the best suitable qualitative and quantitative amino acid composition for an alternative and/or complementary therapy is still being studied in different research centers.
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PMID:Malnutrition, muscle wasting and cachexia in chronic heart failure: the nutritional approach. 1278 75

Apoptosis has been found in skeletal muscles of patients with chronic heart failure (CHF) and has been associated with exercise intolerance. In CHF, cachexia is characterized by neurohormonal activation and muscle wasting. Neurohormonal activation can lead to cell death and fibrosis. The purpose of the study was to determine the severity of apoptosis and fibrosis in skeletal muscles of patients with CHF and cachexia and its relationship to exercise intolerance in these patients. Skeletal muscle biopsies of 21 patients with CHF (eight with cachexia) and four healthy controls of similar age have been studied by in situ end labeling (ISEL) for apoptosis and by the Picrosirius Red technique for collagen. Apoptosis in skeletal muscles was detected by ISEL in 52% of the patients with CHF (11 out of 21) and in none of the controls. CHF patients with apoptosis-positive skeletal muscles had impaired exercise tolerance (peak oxygen consumption 11.4+/-5.7 vs. 16.91+/-6.6, P=0.029). Increased collagen was detected by Picrosirius Red in eight out of 21 patients with CHF and in none of the controls. Increased collagen (fibrosis) was detected in six out of eight patients with cachexia and in two out of 13 patients without cachexia (P=0.01). Peak oxygen consumption and apoptosis were similar in cachectic and non-cachectic patients. Thus, the skeletal musculature of patients with cardiac cachexia is characterised by the presence of fibrosis. Apoptosis was not found to be more frequent in cachectic CHF patients. Our data support the hypothesis that cachexia contributes by a different mechanism to skeletal muscle myopathy of CHF patients and different mechanisms are implicated in deterioration of exercise tolerance and progression to cardiac cachexia.
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PMID:Studies on apoptosis and fibrosis in skeletal musculature: a comparison of heart failure patients with and without cardiac cachexia. 1282 Dec 25

Ghrelin is a novel growth hormone (GH)-releasing peptide, isolated from the stomach, which has been identified as an endogenous ligand for growth-hormone secretagogues receptor (GHS-R). This peptide also causes a positive energy balance by stimulating food intake and inducing adiposity through growth hormone-independent mechanisms. In addition, ghrelin has some cardiovascular effects, as indicated by the presence of its receptor in blood vessels and the cardiac ventricles. In vitro, ghrelin inhibits apoptosis of cardiomyocytes and endothelial cells. In humans, infusion of ghrelin decreases systemic vascular resistance and increases cardiac output in patients with heart failure. Repeated administration of ghrelin improves cardiac structure and function and attenuates the development of cardiac cachexia in rats with heart failure. These results suggest that ghrelin has cardiovascular effects and regulates energy metabolism through GH-dependent and -independent mechanisms. Thus, administration of ghrelin may be a new therapeutic strategy for the treatment of severe chronic heart failure (CHF).
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PMID:Ghrelin, a novel growth hormone-releasing peptide, in the treatment of chronic heart failure. 1283 93

Heart failure is a major health problem of epidemic proportions. Irrespective of its etiologic origins, a dysfunction of this normally efficient muscular pump is associated with systemic consequences, a progressive downhill clinical course and poor prognosis. Ventricular dysfunction is ultimately accompanied by neurohormonal system activation that accounts for: the congestive heart failure syndrome; an induction of oxi/nitrosative stress; adverse vascular remodeling; and activation of the immune system that contributes to a wasting syndrome known as cardiac cachexia. Circulating effector hormones of the renin-angiotensin-aldosterone system are an integral feature of this neurohormonal activation; they have systemic consequences. Insights into the pathophysiology of heart failure will identify improved methods of prevention, including biomarkers to aid in its detection and identification of risk, and to the development of specific drug targets. Herein we address one aspect of the neurohormonal profile of heart failure, namely that related to aldosteronism. Our focus is directed at the link between aldosteronism and its adverse influence on coronary vasculature structure, a proinflammatory/fibrogenic cardiac phenotype, which is based on an immunostimulatory state that includes activated peripheral blood mononuclear cells.
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PMID:Aldosteronism in heart failure: a proinflammatory/fibrogenic cardiac phenotype. Search for biomarkers and potential drug targets. 1286 65

In this paper the perspective for nutritional modulation of systemic impairment in patients with chronic obstructive pulmonary disease (COPD) is discussed. Progressive weight loss is characterised by disease-specific elevated energy requirements unbalanced by dietary intake. Weight gain per se can be achieved by caloric supplementation while future studies may prove efficacy of amino acid modulation to stimulate protein synthesis and enhance muscle anabolism. Disproportionate muscle wasting resembles the cachexia syndrome as described in other chronic wasting diseases (cancer, chronic heart failure, acquired immunodeficiency syndrome (AIDS)). There is yet no adequate nutritional strategy available to treat cachexia in COPD. Muscle substrate metabolism has hardly been investigated, but the few data available point towards a decreased fat oxidative capacity that may show similarities with the "metabolic syndrome" as described in type II diabetes and obesity and could theoretically benefit from polyunsaturated fatty acid modulation. To adequately target the different therapeutic options, clearly more clinical (intervention) studies are needed in chronic obstructive pulmonary disease patients that are adequately characterised by local and systemic impairment and in which molecular and metabolic markers are linked to functional outcome.
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PMID:Nutritional and metabolic modulation in chronic obstructive pulmonary disease management. 1462 Nov 10

Hypertension is an important determinant of heart failure. Ventricular systolic and/or diastolic dysfunction can eventuate in an activation of the renin-angiotensin-aldosterone system (RAAS). Circulating RAAS effector hormones lead to: the appearance of the congestive heart failure syndrome; and a systemic illness that features oxi/nitrosative stress in various tissues, including blood, together with circulating pro-inflammatory cytokines, anorexia and, ultimately, cachexia. In addition to its well-known endocrine properties, expressed in epithelial cells of classic target tissues, aldosterone (ALDO) has an emerging portfolio of actions in nonclassic target tissues, such as circulating lymphocytes and monocytes (or peripheral blood mononuclear cells [PBMC]). This neuroendocrine-immune interface is based on Na(+)-dependent, ALDO-induced iterations in PBMC cytosolic free [Mg(2+)](i) and [Ca(2+)](i). Ca(2+) loading contributes to an induction of oxi/nitrosative stress and activation of PBMC transcriptome. This immunostimulatory state begets a pro-inflammatory/fibrogenic vascular phenotype involving the heart and systemic organs and can be prevented by either ALDO receptor antagonism or antioxidant. The established efficacy of ALDO receptor antagonism as an integral component of the overall management of symptomatic heart failure may include its immunomodulatory properties. This brief review traces studies that led to and then identified the neuroendocrine-immune interface that accompanies aldosteronism.
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PMID:A neuroendocrine-immune interface. The immunostimulatory state of aldosteronism. 1468 3


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